MSSQL 自定义函数详解

时间:2022-07-02 13:02:52

自定义函数分为:标量值函数或表值函数

如果 RETURNS 子句指定一种标量数据类型,则函数为标量值函数。可以使用多条 Transact-SQL 语句定义标量值函数。

如果 RETURNS 子句指定 TABLE,则函数为表值函数。

表值函数又可分为:内嵌表值函数(行内函数)或多语句函数

如果 RETURNS 子句指定的 TABLE 不附带列的列表,则该函数为内嵌表值函数。

如果 RETURNS 子句指定的 TABLE 类型带有列及其数据类型,则该函数是多语句表值函数。

标量值函数示例

CREATE FUNCTION dbo.Foo
(
)
RETURNS INT
AS
BEGIN
DECLARE @n INT
SELECT @n = 3
RETURN @n
END

内嵌表值函数示例

CREATE FUNCTION dbo.Foo
(
)
RETURNS TABLE
AS
RETURN
SELECT id,
title
FROM msgs

多语句表值函数示例(部分)

CREATE FUNCTION dbo.fn_FindReports (@InEmpID INTEGER)
RETURNS @retFindReports TABLE
(
EmployeeID int primary key NOT NULL,
Name nvarchar(255) NOT NULL,
Title nvarchar(50) NOT NULL,
EmployeeLevel int NOT NULL,
Sort nvarchar (255) NOT NULL
)
--Returns a result set that lists all the employees who report to the
--specific employee directly or indirectly.*/
AS
BEGIN
WITH DirectReports(Name, Title, EmployeeID, EmployeeLevel, Sort) AS
(SELECT CONVERT(Varchar(255), c.FirstName + ' ' + c.LastName),
e.Title,
e.EmployeeID,
1,
CONVERT(Varchar(255), c.FirstName + ' ' + c.LastName)
FROM HumanResources.Employee AS e
JOIN Person.Contact AS c ON e.ContactID = c.ContactID
WHERE e.EmployeeID = @InEmpID
UNION ALL
SELECT CONVERT(Varchar(255), REPLICATE ('| ' , EmployeeLevel) +
c.FirstName + ' ' + c.LastName),
e.Title,
e.EmployeeID,
EmployeeLevel + 1,
CONVERT (Varchar(255), RTRIM(Sort) + '| ' + FirstName + ' ' +
LastName)
FROM HumanResources.Employee as e
JOIN Person.Contact AS c ON e.ContactID = c.ContactID
JOIN DirectReports AS d ON e.ManagerID = d.EmployeeID
)
-- copy the required columns to the result of the function
INSERT @retFindReports
SELECT EmployeeID, Name, Title, EmployeeLevel, Sort
FROM DirectReports
RETURN
END;
GO
在以下示例中,调用了此函数。
-- Example invocation
SELECT EmployeeID, Name, Title, EmployeeLevel
FROM dbo.fn_FindReports(109)
ORDER BY Sort;

注意其 RETURNS 部分。

多语句函数的主体中允许使用以下语句。未在下面的列表中列出的语句不能用在函数主体中。

赋值语句。

控制流语句。

DECLARE 语句,该语句定义函数局部的数据变量和游标。

SELECT 语句,该语句包含带有表达式的选择列表,其中的表达式将值赋予函数的局部变量。

游标操作,该操作引用在函数中声明、打开、关闭和释放的局部游标。只允许使用以 INTO 子句向局部变量赋值的 FETCH 语句;不允许使用将数据返回到客户端的 FETCH 语句。

INSERT、UPDATE 和 DELETE 语句,这些语句修改函数的局部 table 变量。

EXECUTE 语句调用扩展存储过程。

ALTER FUNCTION [dbo].[AmountRole1]
(
@Amount numeric(18,2)
)
RETURNS numeric(18,2)
AS
BEGIN
DECLARE @i FLOAT
IF @Amount >= 2000
SET @i = @Amount * 0.98 --满2000打9.8折
ELSE
SET @i = @Amount
RETURN (@i)
END

自定义函数语法

Scalar Functions
CREATE FUNCTION [ schema_name. ] function_name
( [ { @parameter_name [ AS ][ type_schema_name. ] parameter_data_type
[ = default ] }
[ ,...n ]
]
)
RETURNS return_data_type
[ WITH <function_option> [ ,...n ] ]
[ AS ]
BEGIN
function_body
RETURN scalar_expression
END
[ ; ] Inline Table-valued Functions
CREATE FUNCTION [ schema_name. ] function_name
( [ { @parameter_name [ AS ] [ type_schema_name. ] parameter_data_type
[ = default ] }
[ ,...n ]
]
)
RETURNS TABLE
[ WITH <function_option> [ ,...n ] ]
[ AS ]
RETURN [ ( ] select_stmt [ ) ]
[ ; ] Multistatement Table-valued Functions
CREATE FUNCTION [ schema_name. ] function_name
( [ { @parameter_name [ AS ] [ type_schema_name. ] parameter_data_type
[ = default ] }
[ ,...n ]
]
)
RETURNS @return_variable TABLE < table_type_definition >
[ WITH <function_option> [ ,...n ] ]
[ AS ]
BEGIN
function_body
RETURN
END
[ ; ] CLR Functions
CREATE FUNCTION [ schema_name. ] function_name
( { @parameter_name [AS] [ type_schema_name. ] parameter_data_type
[ = default ] }
[ ,...n ]
)
RETURNS { return_data_type | TABLE <clr_table_type_definition> }
[ WITH <clr_function_option> [ ,...n ] ]
[ AS ] EXTERNAL NAME <method_specifier>
[ ; ] Method Specifier
<method_specifier>::=
assembly_name.class_name.method_name Function Options
<function_option>::=
{
[ ENCRYPTION ]
| [ SCHEMABINDING ]
| [ RETURNS NULL ON NULL INPUT | CALLED ON NULL INPUT ]
| [ EXECUTE_AS_Clause ]
} <clr_function_option>::=
}
[ RETURNS NULL ON NULL INPUT | CALLED ON NULL INPUT ]
| [ EXECUTE_AS_Clause ]
} Table Type Definitions
<table_type_definition>:: =
( { <column_definition> <column_constraint>
| <computed_column_definition> }
[ <table_constraint> ] [ ,...n ]
) <clr_table_type_definition>::=
( { column_name data_type } [ ,...n ] ) <column_definition>::=
{
{ column_name data_type }
[ [ DEFAULT constant_expression ]
[ COLLATE collation_name ] | [ ROWGUIDCOL ]
]
| [ IDENTITY [ (seed , increment ) ] ]
[ <column_constraint> [ ...n ] ]
}
<column_constraint>::=
{
[ NULL | NOT NULL ]
{ PRIMARY KEY | UNIQUE }
[ CLUSTERED | NONCLUSTERED ]
[ WITH FILLFACTOR = fillfactor
| WITH ( < index_option > [ , ...n ] )
[ ON { filegroup | "default" } ]
| [ CHECK ( logical_expression ) ] [ ,...n ]
} <computed_column_definition>::=
column_name AS computed_column_expression <table_constraint>::=
{
{ PRIMARY KEY | UNIQUE }
[ CLUSTERED | NONCLUSTERED ]
( column_name [ ASC | DESC ] [ ,...n ] )
[ WITH FILLFACTOR = fillfactor
| WITH ( <index_option> [ , ...n ] )
| [ CHECK ( logical_expression ) ] [ ,...n ]
} <index_option>::=
{
PAD_INDEX = { ON | OFF } | FILLFACTOR = fillfactor
| IGNORE_DUP_KEY = { ON | OFF }
| STATISTICS_NORECOMPUTE = { ON | OFF }
| ALLOW_ROW_LOCKS = { ON | OFF }
| ALLOW_PAGE_LOCKS ={ ON | OFF }
}