Skip Headers
Oracle® Database PL/SQL Language Reference
11g Release 2 (11.2)

Part Number E25519-05
Go to Documentation Home
Home
Go to Book List
Book List
Go to Table of Contents
Contents
Go to Index
Index
Go to Master Index
Master Index
Go to Feedback page
Contact Us

Go to previous page
Previous
Go to next page
Next
PDF · Mobi · ePub

CREATE FUNCTION Statement

The CREATE FUNCTION statement creates or replaces a standalone function or a call specification.

A standalone function is a function (a subprogram that returns a single value) that is stored in the database.

Note:

A standalone function that you create with the CREATE FUNCTION statement differs from a function that you declare and define in a PL/SQL block or package. For information about the latter, see "Function Declaration and Definition".

A call specification declares a Java method or a third-generation language (3GL) subprogram so that it can be invoked from PL/SQL. You can also use the SQL CALL statement to invoke such a method or subprogram. The call specification tells the database which Java method, or which named function in which shared library, to invoke when an invocation is made. It also tells the database what type conversions to make for the arguments and return value.

Note:

To be callable from SQL statements, a stored function must obey certain rules that control side effects. See "Subprogram Side Effects".

Topics

Prerequisites

To create or replace a standalone function in your schema, you must have the CREATE PROCEDURE system privilege. To create or replace a standalone function in another user's schema, you must have the CREATE ANY PROCEDURE system privilege.

To invoke a call specification, you may need additional privileges, for example, EXECUTE privileges on a C library for a C call specification.

To embed a CREATE FUNCTION statement inside an Oracle precompiler program, you must terminate the statement with the keyword END-EXEC followed by the embedded SQL statement terminator for the specific language.

Syntax

create_function ::=

Description of create_function.gif follows
Description of the illustration create_function.gif

See:

invoker_rights_clause ::=

Description of invoker_rights_clause.gif follows
Description of the illustration invoker_rights_clause.gif

parallel_enable_clause ::=

Description of parallel_enable_clause.gif follows
Description of the illustration parallel_enable_clause.gif

streaming_clause ::=

Description of streaming_clause.gif follows
Description of the illustration streaming_clause.gif

call_spec ::=

Description of call_spec.gif follows
Description of the illustration call_spec.gif

java_declaration ::=

Description of java_declaration.gif follows
Description of the illustration java_declaration.gif

c_declaration ::=

Description of c_declaration.gif follows
Description of the illustration c_declaration.gif

external_parameter ::=

Description of external_parameter.gif follows
Description of the illustration external_parameter.gif

property ::=

Description of property.gif follows
Description of the illustration property.gif

Semantics

OR REPLACE

Re-creates the function if it exists, and recompiles it.

Users who were granted privileges on the function before it was redefined can still access the function without being regranted the privileges.

If any function-based indexes depend on the function, then the database marks the indexes DISABLED.

schema

Name of the schema containing the function. Default: your schema.

function_name

Name of the function to be created.

Note:

If you plan to invoke a stored subprogram using a stub generated by SQL*Module, then the stored subprogram name must also be a legal identifier in the invoking host 3GL language, such as Ada or C.

RETURN datatype

For datatype, specify the data type of the return value of the function. The return value can have any data type supported by PL/SQL.

Note:

Oracle SQL does not support invoking functions with BOOLEAN parameters or returns. Therefore, for SQL statements to invoke your user-defined functions, you must design them to return numbers (0 or 1) or character strings ('TRUE' or 'FALSE').

The data type cannot specify a length, precision, or scale. The database derives the length, precision, or scale of the return value from the environment from which the function is called.

If the return type is ANYDATASET and you intend to use the function in the FROM clause of a query, then you must also specify the PIPELINED clause and define a describe method (ODCITableDescribe) as part of the implementation type of the function.

You cannot constrain this data type (with NOT NULL, for example).

See Also:

invoker_rights_clause

Specifies the AUTHID property of the function. For information about the AUTHID property, see "Invoker's Rights and Definer's Rights (AUTHID Property)".

DETERMINISTIC

Indicates that the function returns the same result value whenever it is called with the same values for its parameters.

You must specify this keyword if you intend to invoke the function in the expression of a function-based index or from the query of a materialized view that is marked REFRESH FAST or ENABLE QUERY REWRITE. When the database encounters a deterministic function in one of these contexts, it attempts to use previously calculated results when possible rather than reexecuting the function. If you subsequently change the semantics of the function, then you must manually rebuild all dependent function-based indexes and materialized views.

Do not specify this clause to define a function that uses package variables or that accesses the database in any way that might affect the return result of the function. The results of doing so are not captured if the database chooses not to reexecute the function.

These semantic rules govern the use of the DETERMINISTIC clause:

See Also:

parallel_enable_clause

Indicates that the function can run from a parallel execution server of a parallel query operation. The function must not use session state, such as package variables, as those variables are not necessarily shared among the parallel execution servers.

The columns specified in all of these optional clauses refer to columns that are returned by the REF CURSOR argument of the function.

See Also:

PIPELINED { IS | USING }

Instructs the database to return the results of a table function iteratively. A table function returns a collection type (a nested table or varray). You query table functions by using the TABLE keyword before the function name in the FROM clause of the query. For example:

SELECT * FROM TABLE(function_name(...))

the database then returns rows as they are produced by the function.

AGGREGATE USING

Identifies this function as an aggregate function, or one that evaluates a group of rows and returns a single row. You can specify aggregate functions in the select list, HAVING clause, and ORDER BY clause.

When you specify a user-defined aggregate function in a query, you can treat it as an analytic function (one that operates on a query result set). To do so, use the OVER analytic_clause syntax available for SQL analytic functions. See Oracle Database SQL Language Reference for syntax and semantics of analytic functions.

In the USING clause, specify the name of the implementation type of the function. The implementation type must be an ADT containing the implementation of the ODCIAggregate subprograms. If you do not specify schema, then the database assumes that the implementation type is in your schema.

Restriction on AGGREGATE USING If you specify this clause, then you can specify only one input argument for the function.

See Also:

Oracle Database Data Cartridge Developer's Guide for information about ODCI subprograms

body

The required executable part of the function and, optionally, the exception-handling part of the function.

declare_section

The optional declarative part of the function. Declarations are local to the function, can be referenced in body, and cease to exist when the function completes execution.

call_spec

Maps a C procedure or Java method name, parameter types, and return type to their SQL counterparts. In java_declaration, string identifies the Java implementation of the method. In c_declaration, LIBRARY lib_name identifies a library created by the "CREATE LIBRARY Statement".

See Also:

EXTERNAL

Deprecated way of declaring a C function, supported only for backward compatibility. Oracle recommends that you use the LANGUAGE C syntax.

Examples

Creating a Function: Examples This statement creates the function get_bal on the sample table oe.orders:

CREATE FUNCTION get_bal(acc_no IN NUMBER) 
   RETURN NUMBER 
   IS acc_bal NUMBER(11,2);
   BEGIN 
      SELECT order_total 
      INTO acc_bal 
      FROM orders 
      WHERE customer_id = acc_no; 
      RETURN(acc_bal); 
    END;
/

The get_bal function returns the balance of a specified account.

When you invoke the function, you must specify the argument acc_no, the number of the account whose balance is sought. The data type of acc_no is NUMBER.

The function returns the account balance. The RETURN clause of the CREATE FUNCTION statement specifies the data type of the return value to be NUMBER.

The function uses a SELECT statement to select the balance column from the row identified by the argument acc_no in the orders table. The function uses a RETURN statement to return this value to the environment in which the function is called.

The function created in the preceding example can be used in a SQL statement. For example:

SELECT get_bal(165) FROM DUAL; 

GET_BAL(165)
------------
        2519

The hypothetical following statement creates a PL/SQL standalone function get_val that registers the C subprogram c_get_val as an external function. (The parameters have been omitted from this example.)

CREATE FUNCTION get_val
   ( x_val IN NUMBER,
    y_val IN NUMBER,
    image IN LONG RAW )
   RETURN BINARY_INTEGER AS LANGUAGE C
      NAME "c_get_val"
      LIBRARY c_utils
      PARAMETERS (...);

Creating Aggregate Functions: Example The next statement creates an aggregate function called SecondMax to aggregate over number values. It assumes that the ADT SecondMaxImpl subprograms contains the implementations of the ODCIAggregate subprograms:

CREATE FUNCTION SecondMax (input NUMBER) RETURN NUMBER
    PARALLEL_ENABLE AGGREGATE USING SecondMaxImpl;

See Also:

Oracle Database Data Cartridge Developer's Guide for the complete implementation of type and type body for SecondMaxImpl

Use such an aggregate function in a query like this statement, which queries the sample table hr.employees:

SELECT SecondMax(salary) "SecondMax", department_id
      FROM employees
      GROUP BY department_id
      HAVING SecondMax(salary) > 9000
      ORDER BY "SecondMax", department_id;

SecondMax DEPARTMENT_ID
--------- -------------
      9450           100
  13670.74            50
     14175            80
   18742.5            90

Package Procedure in a Function: Example This statement creates a function that uses a DBMS_LOB.GETLENGTH procedure to return the length of a CLOB column:

CREATE OR REPLACE FUNCTION text_length(a CLOB) 
   RETURN NUMBER DETERMINISTIC IS
BEGIN 
  RETURN DBMS_LOB.GETLENGTH(a);
END;

Related Topics

In this chapter:

In other chapters:

See Also: