The MySQL server can operate in different SQL modes, and can apply these modes differently for different clients. This capability enables each application to tailor the server's operating mode to its own requirements.
For answers to some questions that are often asked about server SQL modes in MySQL, see Section A.3, “MySQL 5.4 FAQ — Server SQL Mode”.
Modes define what SQL syntax MySQL should support and what kind of data validation checks it should perform. This makes it easier to use MySQL in different environments and to use MySQL together with other database servers.
You can set the default SQL mode by starting
mysqld with the
--sql-mode="
option, or by using
modes
"sql-mode="
in modes
"my.cnf
(Unix operating systems) or
my.ini
(Windows).
modes
is a list of different modes
separated by comma (“,
”)
characters. The default value is empty (no modes set). The
modes
value also can be empty
(--sql-mode=""
on the command line,
or sql-mode=""
in
my.cnf
on Unix systems or in
my.ini
on Windows) if you want to clear it
explicitly.
You can change the SQL mode at runtime by using a SET
[GLOBAL|SESSION]
sql_mode='
statement to
set the modes
'sql_mode
system value.
Setting the GLOBAL
variable requires the
SUPER
privilege and affects the
operation of all clients that connect from that time on. Setting
the SESSION
variable affects only the current
client. Any client can change its own session
sql_mode
value at any time.
SQL mode and user-defined partitioning. Changing the server SQL mode after creating and inserting data into partitioned tables can cause major changes in the behavior of such tables, and could lead to loss or corruption of data. It is strongly recommended that you never change the SQL mode once you have created tables employing user-defined partitioning.
When replicating partitioned tables, differing SQL modes on master and slave can also lead to problems. For best results, you should always use the same server SQL mode on the master and on the slave.
See Section 17.5, “Restrictions and Limitations on Partitioning”, for more information.
You can retrieve the current global or session
sql_mode
value with the following
statements:
SELECT @@GLOBAL.sql_mode; SELECT @@SESSION.sql_mode;
The most important sql_mode
values are probably these:
This mode changes syntax and behavior to conform more closely to standard SQL.
If a value could not be inserted as given into a transactional table, abort the statement. For a nontransactional table, abort the statement if the value occurs in a single-row statement or the first row of a multiple-row statement. More detail is given later in this section.
Make MySQL behave like a “traditional” SQL database system. A simple description of this mode is “give an error instead of a warning” when inserting an incorrect value into a column.
When this manual refers to “strict mode,” it means a
mode where at least one of
STRICT_TRANS_TABLES
or
STRICT_ALL_TABLES
is enabled.
The following list describes all supported modes:
Don't do full checking of dates. Check only that the month is
in the range from 1 to 12 and the day is in the range from 1
to 31. This is very convenient for Web applications where you
obtain year, month, and day in three different fields and you
want to store exactly what the user inserted (without date
validation). This mode applies to
DATE
and
DATETIME
columns. It does not
apply TIMESTAMP
columns, which
always require a valid date.
The server requires that month and day values be legal, and
not merely in the range 1 to 12 and 1 to 31, respectively.
With strict mode disabled, invalid dates such as
'2004-04-31'
are converted to
'0000-00-00'
and a warning is generated.
With strict mode enabled, invalid dates generate an error. To
allow such dates, enable
ALLOW_INVALID_DATES
.
Treat “"
” as an identifier
quote character (like the “`
”
quote character) and not as a string quote character. You can
still use “`
” to quote
identifiers with this mode enabled. With
ANSI_QUOTES
enabled, you
cannot use double quotes to quote literal strings, because it
is interpreted as an identifier.
Produce an error in strict mode (otherwise a warning) when a
division by zero (or MOD(X,0)
)
occurs during an INSERT
or
UPDATE
. If this mode is not
enabled, MySQL instead returns NULL
for
divisions by zero. For
INSERT
IGNORE
or UPDATE IGNORE
, MySQL
generates a warning for divisions by zero, but the result of
the operation is NULL
.
The precedence of the NOT
operator is such that expressions such as NOT a
BETWEEN b AND c
are parsed as NOT (a
BETWEEN b AND c)
. In some older versions of MySQL,
the expression was parsed as (NOT a) BETWEEN b AND
c
. The old higher-precedence behavior can be
obtained by enabling the
HIGH_NOT_PRECEDENCE
SQL
mode.
mysql>SET sql_mode = '';
mysql>SELECT NOT 1 BETWEEN -5 AND 5;
-> 0 mysql>SET sql_mode = 'HIGH_NOT_PRECEDENCE';
mysql>SELECT NOT 1 BETWEEN -5 AND 5;
-> 1
Allow spaces between a function name and the
“(
” character. This causes
built-in function names to be treated as reserved words. As a
result, identifiers that are the same as function names must
be quoted as described in Section 8.2, “Schema Object Names”. For
example, because there is a
COUNT()
function, the use of
count
as a table name in the following
statement causes an error:
mysql> CREATE TABLE count (i INT);
ERROR 1064 (42000): You have an error in your SQL syntax
The table name should be quoted:
mysql> CREATE TABLE `count` (i INT);
Query OK, 0 rows affected (0.00 sec)
The IGNORE_SPACE
SQL mode
applies to built-in functions, not to user-defined functions
or stored functions. It is always allowable to have spaces
after a UDF or stored function name, regardless of whether
IGNORE_SPACE
is enabled.
For further discussion of
IGNORE_SPACE
, see
Section 8.2.4, “Function Name Parsing and Resolution”.
Prevent the GRANT
statement
from automatically creating new users if it would otherwise do
so, unless a nonempty password also is specified.
NO_AUTO_VALUE_ON_ZERO
affects handling of AUTO_INCREMENT
columns.
Normally, you generate the next sequence number for the column
by inserting either NULL
or
0
into it.
NO_AUTO_VALUE_ON_ZERO
suppresses this behavior for 0
so that only
NULL
generates the next sequence number.
This mode can be useful if 0
has been
stored in a table's AUTO_INCREMENT
column.
(Storing 0
is not a recommended practice,
by the way.) For example, if you dump the table with
mysqldump and then reload it, MySQL
normally generates new sequence numbers when it encounters the
0
values, resulting in a table with
contents different from the one that was dumped. Enabling
NO_AUTO_VALUE_ON_ZERO
before
reloading the dump file solves this problem.
mysqldump now automatically includes in its
output a statement that enables
NO_AUTO_VALUE_ON_ZERO
, to
avoid this problem.
Disable the use of the backslash character
(“\
”) as an escape character
within strings. With this mode enabled, backslash becomes an
ordinary character like any other.
When creating a table, ignore all INDEX
DIRECTORY
and DATA DIRECTORY
directives. This option is useful on slave replication
servers.
Control automatic substitution of the default storage engine
when a statement such as CREATE
TABLE
or ALTER TABLE
specifies a storage engine that is disabled or not compiled
in.
Because storage engines can be pluggable at runtime, unavailable engines are treated the same way:
With NO_ENGINE_SUBSTITUTION
disabled, for CREATE TABLE
the
default engine is used and a warning occurs if the desired
engine is unavailable. For ALTER
TABLE
, a warning occurs and the table is not
altered.
With NO_ENGINE_SUBSTITUTION
enabled, an error occurs and the table is not created or
altered if the desired engine is unavailable.
Do not print MySQL-specific column options in the output of
SHOW CREATE TABLE
. This mode is
used by mysqldump in portability mode.
Do not print MySQL-specific index options in the output of
SHOW CREATE TABLE
. This mode is
used by mysqldump in portability mode.
Do not print MySQL-specific table options (such as
ENGINE
) in the output of
SHOW CREATE TABLE
. This mode is
used by mysqldump in portability mode.
In integer subtraction operations, do not mark the result as
UNSIGNED
if one of the operands is
unsigned. In other words, the result of a
subtraction is always signed whenever this mode is in effect,
even if one of the operands is unsigned. For
example, compare the type of column c2
in
table t1
with that of column
c2
in table t2
:
mysql>SET SQL_MODE='';
mysql>CREATE TABLE test (c1 BIGINT UNSIGNED NOT NULL);
mysql>CREATE TABLE t1 SELECT c1 - 1 AS c2 FROM test;
mysql>DESCRIBE t1;
+-------+---------------------+------+-----+---------+-------+ | Field | Type | Null | Key | Default | Extra | +-------+---------------------+------+-----+---------+-------+ | c2 | bigint(21) unsigned | | | 0 | | +-------+---------------------+------+-----+---------+-------+ mysql>SET SQL_MODE='NO_UNSIGNED_SUBTRACTION';
mysql>CREATE TABLE t2 SELECT c1 - 1 AS c2 FROM test;
mysql>DESCRIBE t2;
+-------+------------+------+-----+---------+-------+ | Field | Type | Null | Key | Default | Extra | +-------+------------+------+-----+---------+-------+ | c2 | bigint(21) | | | 0 | | +-------+------------+------+-----+---------+-------+
Note that this means that BIGINT UNSIGNED
is not 100% usable in all contexts. See
Section 11.9, “Cast Functions and Operators”.
mysql>SET SQL_MODE = '';
mysql>SELECT CAST(0 AS UNSIGNED) - 1;
+-------------------------+ | CAST(0 AS UNSIGNED) - 1 | +-------------------------+ | 18446744073709551615 | +-------------------------+ mysql>SET SQL_MODE = 'NO_UNSIGNED_SUBTRACTION';
mysql>SELECT CAST(0 AS UNSIGNED) - 1;
+-------------------------+ | CAST(0 AS UNSIGNED) - 1 | +-------------------------+ | -1 | +-------------------------+
In strict mode, don't allow '0000-00-00'
as
a valid date. You can still insert zero dates with the
IGNORE
option. When not in strict mode, the
date is accepted but a warning is generated.
In strict mode, do not accept dates where the year part is
nonzero but the month or day part is 0 (for example,
'0000-00-00'
is legal but
'2010-00-01'
and
'2010-01-00'
are not). If used with the
IGNORE
option, MySQL inserts a
'0000-00-00'
date for any such date. When
not in strict mode, the date is accepted but a warning is
generated.
Do not allow queries for which the
SELECT
list refers to
nonaggregated columns that are not named in the GROUP
BY
clause. The following query is invalid with this
mode enabled because address
is not named
in the GROUP BY
clause:
SELECT name, address, MAX(age) FROM t GROUP BY name;
This mode also restricts references to nonaggregated columns
in the HAVING
clause that are not named in
the GROUP BY
clause.
By default, trailing spaces are trimmed from
CHAR
column values on
retrieval. If
PAD_CHAR_TO_FULL_LENGTH
is
enabled, trimming does not occur and retrieved
CHAR
values are padded to their
full length. This mode does not apply to
VARCHAR
columns, for which
trailing spaces are retained on retrieval.
mysql>CREATE TABLE t1 (c1 CHAR(10));
Query OK, 0 rows affected (0.37 sec) mysql>INSERT INTO t1 (c1) VALUES('xy');
Query OK, 1 row affected (0.01 sec) mysql>SET sql_mode = '';
Query OK, 0 rows affected (0.00 sec) mysql>SELECT c1, CHAR_LENGTH(c1) FROM t1;
+------+-----------------+ | c1 | CHAR_LENGTH(c1) | +------+-----------------+ | xy | 2 | +------+-----------------+ 1 row in set (0.00 sec) mysql>SET sql_mode = 'PAD_CHAR_TO_FULL_LENGTH';
Query OK, 0 rows affected (0.00 sec) mysql>SELECT c1, CHAR_LENGTH(c1) FROM t1;
+------------+-----------------+ | c1 | CHAR_LENGTH(c1) | +------------+-----------------+ | xy | 10 | +------------+-----------------+ 1 row in set (0.00 sec)
Treat ||
as a
string concatenation operator (same as
CONCAT()
) rather than as a
synonym for OR
.
Treat REAL
as a synonym for
FLOAT
. By default, MySQL treats
REAL
as a synonym for
DOUBLE
.
Enable strict mode for all storage engines. Invalid data values are rejected. Additional detail follows.
Enable strict mode for transactional storage engines, and when possible for nontransactional storage engines. Additional details follow.
Strict mode controls how MySQL handles input values that are
invalid or missing. A value can be invalid for several reasons.
For example, it might have the wrong data type for the column, or
it might be out of range. A value is missing when a new row to be
inserted does not contain a value for a
non-NULL
column that has no explicit
DEFAULT
clause in its definition. (For a
NULL
column, NULL
is
inserted if the value is missing.)
For transactional tables, an error occurs for invalid or missing
values in a statement when either of the
STRICT_ALL_TABLES
or
STRICT_TRANS_TABLES
modes are
enabled. The statement is aborted and rolled back.
For nontransactional tables, the behavior is the same for either mode, if the bad value occurs in the first row to be inserted or updated. The statement is aborted and the table remains unchanged. If the statement inserts or modifies multiple rows and the bad value occurs in the second or later row, the result depends on which strict option is enabled:
For STRICT_ALL_TABLES
, MySQL
returns an error and ignores the rest of the rows. However, in
this case, the earlier rows still have been inserted or
updated. This means that you might get a partial update, which
might not be what you want. To avoid this, it is best to use
single-row statements because these can be aborted without
changing the table.
For STRICT_TRANS_TABLES
,
MySQL converts an invalid value to the closest valid value for
the column and insert the adjusted value. If a value is
missing, MySQL inserts the implicit default value for the
column data type. In either case, MySQL generates a warning
rather than an error and continues processing the statement.
Implicit defaults are described in
Section 10.1.4, “Data Type Default Values”.
Strict mode disallows invalid date values such as
'2004-04-31'
. It does not disallow dates with
zero month or day parts such as '2004-04-00'
or
“zero” dates. To disallow these as well, enable the
NO_ZERO_IN_DATE
and
NO_ZERO_DATE
SQL modes in
addition to strict mode.
If you are not using strict mode (that is, neither
STRICT_TRANS_TABLES
nor
STRICT_ALL_TABLES
is enabled),
MySQL inserts adjusted values for invalid or missing values and
produces warnings. In strict mode, you can produce this behavior
by using INSERT
IGNORE
or UPDATE IGNORE
. See
Section 12.4.5.41, “SHOW WARNINGS
Syntax”.
Strict mode does not affect whether foreign key constraints are
checked. foreign_key_checks
can
be used for that. (See
Section 5.1.5, “Session System Variables”.)
The following special modes are provided as shorthand for combinations of mode values from the preceding list.
The descriptions include all mode values that are available in the most recent version of MySQL. For older versions, a combination mode does not include individual mode values that are not available except in newer versions.
Equivalent to REAL_AS_FLOAT
,
PIPES_AS_CONCAT
,
ANSI_QUOTES
,
IGNORE_SPACE
.
ANSI
mode also causes the
server to return an error for queries where a set function
S
with an outer reference
cannot be aggregated in the outer query against which the
outer reference has been resolved. This is such a query:
S
(outer_ref
)
SELECT * FROM t1 WHERE t1.a IN (SELECT MAX(t1.b) FROM t2 WHERE ...);
Here, MAX(t1.b)
cannot
aggregated in the outer query because it appears in the
WHERE
clause of that query. Standard SQL
requires an error in this situation. If
ANSI
mode is not enabled,
the server treats
in such queries the same way that it would interpret
S
(outer_ref
)
.
S
(const
)
Equivalent to
PIPES_AS_CONCAT
,
ANSI_QUOTES
,
IGNORE_SPACE
,
NO_KEY_OPTIONS
,
NO_TABLE_OPTIONS
,
NO_FIELD_OPTIONS
.
Equivalent to
PIPES_AS_CONCAT
,
ANSI_QUOTES
,
IGNORE_SPACE
,
NO_KEY_OPTIONS
,
NO_TABLE_OPTIONS
,
NO_FIELD_OPTIONS
,
NO_AUTO_CREATE_USER
.
Equivalent to
PIPES_AS_CONCAT
,
ANSI_QUOTES
,
IGNORE_SPACE
,
NO_KEY_OPTIONS
,
NO_TABLE_OPTIONS
,
NO_FIELD_OPTIONS
.
Equivalent to
NO_FIELD_OPTIONS
,
HIGH_NOT_PRECEDENCE
.
Equivalent to
NO_FIELD_OPTIONS
,
HIGH_NOT_PRECEDENCE
.
Equivalent to
PIPES_AS_CONCAT
,
ANSI_QUOTES
,
IGNORE_SPACE
,
NO_KEY_OPTIONS
,
NO_TABLE_OPTIONS
,
NO_FIELD_OPTIONS
,
NO_AUTO_CREATE_USER
.
Equivalent to
PIPES_AS_CONCAT
,
ANSI_QUOTES
,
IGNORE_SPACE
,
NO_KEY_OPTIONS
,
NO_TABLE_OPTIONS
,
NO_FIELD_OPTIONS
.
Equivalent to
STRICT_TRANS_TABLES
,
STRICT_ALL_TABLES
,
NO_ZERO_IN_DATE
,
NO_ZERO_DATE
,
ERROR_FOR_DIVISION_BY_ZERO
,
and NO_AUTO_CREATE_USER
.
User Comments
Add your own comment.