当前位置: 首页 > 图文教程 > 数据库 > MSSQL > SQL Server约束增强的两点建议

MSSQL
MSSQL 数据库备份和还原的几种方法 图文教程
GridView自定义分页的四种存储过程
sqlserver 中charindex/patindex/like 的比较
SQL2005 大数据量检索的分页
MSSQL2005 INSERT,UPDATE,DELETE 之OUTPUT子句使用实例
MSSQL 字符段分段更新
SQLServer2005中的SQLCMD工具使用
Sql server2005 优化查询速度50个方法小结
SQL2005 四个排名函数(row_number、rank、dense_rank和ntile)的比较
sql2005 数据同步方法
配置 SQLServer2005 以允许远程连接
安装SQL2005 29506错误码的解决方案
SQL Server 2008的升级和部署问题
SQL Server教程:读取第三方数据库的数据
用Trigger规范insert, update的值

MSSQL 中的 SQL Server约束增强的两点建议


出处:互联网   整理: 软晨网(RuanChen.com)   发布: 2009-09-13   浏览: 42 ::
收藏到网摘: n/a

我们可以在CHECK的约束条件中加入任何逻辑表达式,而目前所有外键只能用来验证一个或多个列的值是否相等。 在许多情况下,对外键使用更复杂的逻辑表达式是非常有用的。 此外,在某些情况下能够在索引视图创建约束也将非常实用。 我将举例说明,同时我希望针对此文的投票链接会尽快加上。
当外键中需要更为复杂的逻辑表达式时
考虑下面的简单常识: 您的设备的最大电流不能超过您插入到它的电路的最大电流。 假设下面的表存储电路和设备数据:
复制代码 代码如下:

CREATE TABLE Data.Curcuits(CurcuitID INT NOT NULL
CONSTRAINT PK_Curcuits PRIMARY KEY,
MaximumCurrent INT NOT NULL,
Description VARCHAR(100) NOT NULL);
GO
INSERT INTO Data.Curcuits(CurcuitID,
MaximumCurrent,
Description)
SELECT 1, 25, 'Deck and Garage';
GO
CREATE TABLE Data.Devices(DeviceID INT NOT NULL
CONSTRAINT PK_Devices PRIMARY KEY,
CurcuitID INT NULL,
MaximumCurrent INT NOT NULL,
Description VARCHAR(100) NOT NULL,
CONSTRAINT FK_Devices_Curcuits FOREIGN KEY(CurcuitID)
REFERENCES Data.Curcuits(CurcuitID)
);
GO

It would be very convenient to issue a simple command and implement this business rule:
一个非常简便的命令就可能实现这个业务规则:
ALTER TABLE Data.Devices ADD CONSTRAINT FK_Devices_Curcuits
FOREIGN KEY(CurcuitID, MaximumCurrent)
REFERENCES Data.Curcuits(CurcuitID, MaximumCurrent)
MATCH ON((Data.Devices.CurcuitID = Data.Curcuits.CurcuitID) AND
(Data.Devices.MaximumCurrent <= Data.Curcuits.MaximumCurrent));
However, it is not supported, so I need to use a workaround, one more column and three constraints instead of one, as follows:
然而,该语句并不被支持,所以必须采用其他办法——多增加一列约束,使用3个而不是1个约束,如下所示:
ALTER TABLE Data.Curcuits
ADD CONSTRAINT UNQ_Curcuits UNIQUE(CurcuitID, MaximumCurrent);
GO
ALTER TABLE Data.Devices ADD CurcuitMaximumCurrent INT NULL;
GO
ALTER TABLE Data.Devices DROP CONSTRAINT FK_Devices_Curcuits;
GO
ALTER TABLE Data.Devices ADD CONSTRAINT FK_Devices_Curcuits
FOREIGN KEY(CurcuitID, CurcuitMaximumCurrent)
REFERENCES Data.Curcuits(CurcuitID, MaximumCurrent)
ON UPDATE CASCADE;
GO
ALTER TABLE Data.Devices
ADD CONSTRAINT CHK_Devices_SufficientCurcuitMaximumCurrent
CHECK(CurcuitMaximumCurrent >= MaximumCurrent);
GO
You can verify that the constraints work:
你可以验证该约束有效:
INSERT INTO Data.Devices(DeviceID,
CurcuitID,
MaximumCurrent,
CurcuitMaximumCurrent,
Description)
SELECT 1, 1, 50, 25, 'Electric car charger'
Msg 547, Level 16, State 0, Line 1
The INSERT statement conflicted with the CHECK constraint "CHK_Devices_SufficientCurcuitMaximumCurrent". The conflict occurred in database "Test", table "data.Devices".
The statement has been terminated.
INSERT 语句和CHECK约束"CHK_Devices_SufficientCurcuitMaximumCurrent"发生冲突。 该冲突发生在数据库"Test"的"data.Devices"表。
该语句被终止执行。
As you have seen, the implementation of a very simple and very common business rule is quite involved, because such business rules are not directly supported by the database engine.
可以看出,一个非常简单而普通的业务规则实现起来也相当繁杂,因为数据库引擎并不直接支持这种业务规则。
When you want to create constraints on indexed views
在索引视图上创建约束
Even when your database guarantees that “the maximum current of your device cannot exceed the maximum current of the circuit you plug it into”, it is not good enough. Consider the following sample data:
尽管数据库保证“您的设备的最大电流不能超过您插入到它的电路的最大电流”,但这还不够。请看下列示例数据:
INSERT INTO Data.Devices(DeviceID,
CurcuitID,
MaximumCurrent,
CurcuitMaximumCurrent,
Description)
SELECT 2, 1, 15, 25, 'ShopVac';
INSERT INTO Data.Devices(DeviceID,
CurcuitID,
MaximumCurrent,
CurcuitMaximumCurrent,
Description)
SELECT 3, 1, 15, 25, 'Miter Saw';
The database structure allows to plug more than one device into a circuit, which is correct, but if you turn both devices on, their combined maximum current exceeds the circuit's maximum current. To enforce this business rule, it would be natural to create an indexed view, so that the database guarantees that the totals are always correct:
数据库中的数据表明可以插入一个以上的设备到电路,这没有错,可是当所有的设备都打开时,它们的最大电流之和会超过电路最大电流。为了加强这个业务规则,很自然的会创建一个索引视图以使数据库保证电流之和总是正确的。
CREATE VIEW Data.TotalMaximumCurrentPerCircuit WITH SCHEMABINDING
AS
SELECT d.CurcuitID,
c.MaximumCurrent AS CircuitMaximumCurrent,
SUM(d.MaximumCurrent) AS TotalMaximumCurrent,
COUNT_BIG(*) AS NumDevices
FROM Data.Devices d JOIN Data.Curcuits c ON d.CurcuitID = c.CurcuitID
GROUP BY d.CurcuitID, c.MaximumCurrent;
GO
CREATE UNIQUE CLUSTERED INDEX Data_TotalMaximumCurrentPerCircuit
ON Data.TotalMaximumCurrentPerCircuit(CurcuitID);
GO
If I could create a check constraint on that indexed view, I would be all set:
如果能在该索引视图上创建一个约束,我将进行这样的设置:
ALTER VIEW Data.TotalMaximumCurrentPerCircuit
ADD CONSTRAINT CHK_TotalMaximumCurrentPerCircuit_ValidCurcuit
CHECK(TotalMaximumCurrent <= CircuitMaximumCurrent)
Instead, I need to use triggers or rather contrived kludges. A built in native support for such quite common business rules would increase the usefulness of SQL Server.
实际上,我必须使用触发器或者精心拼凑Check约束来实现。如果数据库内置支持这种相当普遍的业务规则,那将会增加SQL Server的实用性 。