CREATE [OR REPLACE] [DEFINER = {user | CURRENT_USER | role | CURRENT_ROLE }] [AGGREGATE] FUNCTION [IF NOT EXISTS] func_name ([func_parameter[,...]]) RETURNS type [characteristic ...] RETURN func_body func_parameter: param_name type type: Any valid MariaDB data type characteristic: LANGUAGE SQL | [NOT] DETERMINISTIC | { CONTAINS SQL | NO SQL | READS SQL DATA | MODIFIES SQL DATA } | SQL SECURITY { DEFINER | INVOKER } | COMMENT 'string' func_body: Valid SQL procedure statement
Use the CREATE FUNCTION
statement to create a new stored function. You must have the CREATE ROUTINE
database privilege to use CREATE FUNCTION
. A function takes any number of arguments and returns a value from the function body. The function body can be any valid SQL expression as you would use, for example, in any select expression. If you have the appropriate privileges, you can call the function exactly as you would any built-in function. See Security below for details on privileges.
You can also use a variant of the CREATE FUNCTION
statement to install a user-defined function (UDF) defined by a plugin. See CREATE FUNCTION (UDF)
for details.
You can use a SELECT
statement for the function body by enclosing it in parentheses, exactly as you would to use a subselect for any other expression. The SELECT
statement must return a single value. If more than one column is returned when the function is called, error 1241 results. If more than one row is returned when the function is called, error 1242 results. Use a LIMIT
clause to ensure only one row is returned.
You can also replace the RETURN
clause with a BEGIN...END
compound statement. The compound statement must contain a RETURN
statement. When the function is called, the RETURN
statement immediately returns its result, and any statements after RETURN
are effectively ignored.
By default, a function is associated with the current database. To associate the function explicitly with a given database, specify the fully-qualified name as db_name.func_name
when you create it. If the function name is the same as the name of a built-in function, you must use the fully qualified name when you call it.
The parameter list enclosed within parentheses must always be present. If there are no parameters, an empty parameter list of () should be used. Parameter names are not case sensitive.
Each parameter can be declared to use any valid data type, except that the COLLATE attribute cannot be used.
For valid identifiers to use as function names, see Identifier Names.
From MariaDB 10.3.3, it is possible to create stored aggregate functions as well. See Stored Aggregate Functions for details.
The RETURNS
clause specifies the return type of the function. NULL
values are permitted with all return types.
What happens if the RETURN
clause returns a value of a different type? It depends on the SQL_MODE in effect at the moment of the function creation.
If the SQL_MODE is strict (STRICT_ALL_TABLES or STRICT_TRANS_TABLES flags are specified), a 1366 error will be produced.
Otherwise, the value is coerced to the proper type. For example, if a function specifies an ENUM
or SET
value in the RETURNS
clause, but the RETURN
clause returns an integer, the value returned from the function is the string for the corresponding ENUM
member of set of SET
members.
MariaDB stores the SQL_MODE system variable setting that is in effect at the time a routine is created, and always executes the routine with this setting in force, regardless of the server SQL mode in effect when the routine is invoked.
LANGUAGE SQL
is a standard SQL clause, and it can be used in MariaDB for portability. However that clause has no meaning, because SQL is the only supported language for stored functions.
A function is deterministic if it can produce only one result for a given list of parameters. If the result may be affected by stored data, server variables, random numbers or any value that is not explicitly passed, then the function is not deterministic. Also, a function is non-deterministic if it uses non-deterministic functions like NOW() or CURRENT_TIMESTAMP(). The optimizer may choose a faster execution plan if it known that the function is deterministic. In such cases, you should declare the routine using the DETERMINISTIC
keyword. If you want to explicitly state that the function is not deterministic (which is the default) you can use the NOT DETERMINISTIC
keywords.
If you declare a non-deterministic function as DETERMINISTIC
, you may get incorrect results. If you declare a deterministic function as NOT DETERMINISTIC
, in some cases the queries will be slower.
If the optional OR REPLACE
clause is used, it acts as a shortcut for:
DROP FUNCTION IF EXISTS function_name; CREATE FUNCTION function_name ...;
with the exception that any existing privileges for the function are not dropped.
If the IF NOT EXISTS clause is used, MariaDB will return a warning instead of an error if the function already exists. Cannot be used together with OR REPLACE.
The [NOT] DETERMINISTIC
clause also affects binary logging, because the STATEMENT
format can not be used to store or replicate non-deterministic statements.
CONTAINS SQL
, NO SQL
, READS SQL DATA
, and MODIFIES SQL DATA
are informative clauses that tell the server what the function does. MariaDB does not check in any way whether the specified clause is correct. If none of these clauses are specified, CONTAINS SQL
is used by default.
MODIFIES SQL DATA
means that the function contains statements that may modify data stored in databases. This happens if the function contains statements like DELETE, UPDATE, INSERT, REPLACE or DDL.
READS SQL DATA
means that the function reads data stored in databases, but does not modify any data. This happens if SELECT statements are used, but there no write operations are executed.
CONTAINS SQL
means that the function contains at least one SQL statement, but it does not read or write any data stored in a database. Examples include SET or DO.
NO SQL
means nothing, because MariaDB does not currently support any language other than SQL.
From MariaDB 10.3, a subset of Oracle's PL/SQL language has been supported in addition to the traditional SQL/PSM-based MariaDB syntax. See Oracle mode from MariaDB 10.3 for details on changes when running Oracle mode.
You must have the EXECUTE
privilege on a function to call it. MariaDB automatically grants the EXECUTE
and ALTER ROUTINE
privileges to the account that called CREATE FUNCTION
, even if the DEFINER
clause was used.
Each function has an account associated as the definer. By default, the definer is the account that created the function. Use the DEFINER
clause to specify a different account as the definer. You must have the SUPER
privilege to use the DEFINER
clause. See Account Names for details on specifying accounts.
The SQL SECURITY
clause specifies what privileges are used when a function is called. If SQL SECURITY
is INVOKER
, the function body will be evaluated using the privileges of the user calling the function. If SQL SECURITY
is DEFINER
, the function body is always evaluated using the privileges of the definer account. DEFINER
is the default.
This allows you to create functions that grant limited access to certain data. For example, say you have a table that stores some employee information, and that you've granted SELECT
privileges only on certain columns to the user account roger
.
CREATE TABLE employees (name TINYTEXT, dept TINYTEXT, salary INT); GRANT SELECT (name, dept) ON employees TO roger;
To allow the user the get the maximum salary for a department, define a function and grant the EXECUTE
privilege:
CREATE FUNCTION max_salary (dept TINYTEXT) RETURNS INT RETURN (SELECT MAX(salary) FROM employees WHERE employees.dept = dept); GRANT EXECUTE ON FUNCTION max_salary TO roger;
Since SQL SECURITY
defaults to DEFINER
, whenever the user roger
calls this function, the subselect will execute with your privileges. As long as you have privileges to select the salary of each employee, the caller of the function will be able to get the maximum salary for each department without being able to see individual salaries.
Function return types can be declared to use any valid character set and collation. If used, the COLLATE attribute needs to be preceded by a CHARACTER SET attribute.
If the character set and collation are not specifically set in the statement, the database defaults at the time of creation will be used. If the database defaults change at a later stage, the stored function character set/collation will not be changed at the same time; the stored function needs to be dropped and recreated to ensure the same character set/collation as the database is used.
The following example function takes a parameter, performs an operation using an SQL function, and returns the result.
CREATE FUNCTION hello (s CHAR(20)) RETURNS CHAR(50) DETERMINISTIC RETURN CONCAT('Hello, ',s,'!'); SELECT hello('world'); +----------------+ | hello('world') | +----------------+ | Hello, world! | +----------------+
You can use a compound statement in a function to manipulate data with statements like INSERT
and UPDATE
. The following example creates a counter function that uses a temporary table to store the current value. Because the compound statement contains statements terminated with semicolons, you have to first change the statement delimiter with the DELIMITER
statement to allow the semicolon to be used in the function body. See Delimiters in the mysql client for more.
CREATE TEMPORARY TABLE counter (c INT); INSERT INTO counter VALUES (0); DELIMITER // CREATE FUNCTION counter () RETURNS INT BEGIN UPDATE counter SET c = c + 1; RETURN (SELECT c FROM counter LIMIT 1); END // DELIMITER ;
Character set and collation:
CREATE FUNCTION hello2 (s CHAR(20)) RETURNS CHAR(50) CHARACTER SET 'utf8' COLLATE 'utf8_bin' DETERMINISTIC RETURN CONCAT('Hello, ',s,'!');
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Licensed under the Creative Commons Attribution 3.0 Unported License and the GNU Free Documentation License.
https://mariadb.com/kb/en/create-function/