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I have a situation where i need to enforce a unique constraint on a set of columns, but only for one value of a column.

so for example i have a table like Table(ID, Name, RecordStatus)

Record status can only have a value 1 or 2 (active or deleted), and i want to create a unique constraint on ID, RecordStatus only when RecordStatus = 1, since i dont care if there are multiple deleted records with the same id.

apart from writing triggers, can i do that?

i am using sql server 2005

many thanks

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This design is a common pain. Have you considered changing the design so that the notionally 'deleted ' records are physically deleted from the table and perhaps moved to an 'archive' table? –  onedaywhen May 15 '09 at 8:26
...because the inability to write a UNIQUE constraint to enforce a simple key should be considered a 'code smell', IMO. If you can't change the design (SQL DDL) because many other tables reference this table then I'll wager that your SQL DML also suffers as a result i.e. you have to remember to add ...AND Table.RecordStatus = 1' to most search conditions and join conditions involving this table and experiencing subtle bugs when it inevitably gets omitted on occasion. –  onedaywhen May 15 '09 at 8:32
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8 Answers

up vote 16 down vote accepted

Add a check constraint like this. The difference is, you'll return false if Status = 1 and Count > 0.


CREATE TABLE CheckConstraint
  Name VARCHAR(50),
  RecordStatus TINYINT

  @Id INT

  SELECT @ret = COUNT(*) FROM CheckConstraint WHERE Id = @Id AND RecordStatus = 1;
  RETURN @ret;


ALTER TABLE CheckConstraint
  ADD CONSTRAINT CheckActiveCountConstraint CHECK (NOT (dbo.CheckActiveCount(Id) > 1 AND RecordStatus = 1));

INSERT INTO CheckConstraint VALUES (1, 'No Problems', 2);
INSERT INTO CheckConstraint VALUES (1, 'No Problems', 2);
INSERT INTO CheckConstraint VALUES (1, 'No Problems', 2);
INSERT INTO CheckConstraint VALUES (1, 'No Problems', 1);

INSERT INTO CheckConstraint VALUES (2, 'Oh no!', 1);
INSERT INTO CheckConstraint VALUES (2, 'Oh no!', 2);
-- Msg 547, Level 16, State 0, Line 14
-- The INSERT statement conflicted with the CHECK constraint "CheckActiveCountConstraint". The conflict occurred in database "TestSchema", table "dbo.CheckConstraint".
INSERT INTO CheckConstraint VALUES (2, 'Oh no!', 1);

SELECT * FROM CheckConstraint;
-- Id   Name         RecordStatus
-- ---- ------------ ------------
-- 1    No Problems  2
-- 1    No Problems  2
-- 1    No Problems  2
-- 1    No Problems  1
-- 2    Oh no!       1
-- 2    Oh no!       2

ALTER TABLE CheckConstraint
  DROP CONSTRAINT CheckActiveCountConstraint;

DROP FUNCTION CheckActiveCount;
DROP TABLE CheckConstraint;
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i looked at table level check constraints but doesnt look there is any way to pass the values being inserted or updated to the function, do you know how to ? –  np-hard May 14 '09 at 22:11
Okay, I posted a sample script that will help you prove what I'm talking about. I tested it and it works. If you look at the two commented lines, you'll see the message I get. Nota bene, in my implementation, I merely ensure that you cannot add a second item with the same Id which is active if there is already one active one. You could modify the logic such that if there is an active one, you cannot add any item with the same id. With this pattern, the possibilities are pretty much endless. –  D. Patrick May 14 '09 at 22:24
I'd prefer the same logic in a trigger. "a query in a scalar function... can create big problems if your CHECK constraint relies on a query and if more than one row is affected by any update. What happens is that the constraint gets checked once for each row before the statement completes. That means statement atomicity is broken and the function will be exposed to the database in an inconsistent state. The results are unpredicable and inaccurate." See: blogs.conchango.com/davidportas/archive/2007/02/19/… –  onedaywhen May 15 '09 at 8:21
That's only partially true onedaywhen. The database behaves consistently and predictably. The check constraint will execute after the row is added to the table and before the transaction is committed by the dbms and you can count on that. That blog was talking about a pretty unique problem where you need to execute the constraint against a set of inserts rather than just one insert at a time. ashish is asking for a constraint on one insert at a time and this constraint will work accurately, predictably, and consistently. I'm sorry if this sounded terse; I was running out of characters. –  D. Patrick May 15 '09 at 13:34
This works great for inserts but doesn't seem to work for updates. E.G. Adding this after the other inserts works here when I didn't expect it to. INSERT INTO CheckConstraint VALUES (1, 'No ProblemsA', 2); update CheckConstraint set Recordstatus=1 where name = 'No ProblemsA' –  dwidel Aug 24 '09 at 17:13
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Behold, the filtered index. From the documentation (emphasis mine):

A filtered index is an optimized nonclustered index especially suited to cover queries that select from a well-defined subset of data. It uses a filter predicate to index a portion of rows in the table. A well-designed filtered index can improve query performance as well as reduce index maintenance and storage costs compared with full-table indexes.

And here's an example combining a unique index with a filter predicate:

create unique index [MyIndex]
on [MyTable]([ID])
where [RecordStatus] = 1

Note: the filtered index was introduced in SQL Server 2008. For earlier versions of SQL Server, please see this answer.

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This might be a useful answer for someone searching on the web, but the OP's question is tagged sql-server-2005. The filtered index syntax was added in SQL Server 2008. –  Scott Whitlock Jul 29 '11 at 12:31
Thanks! I was searching the web and are using 2008 :) –  Martin Hansen Mar 18 '12 at 17:11
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You could use a UNIQUE constraint if you use NULL as your deleted status.

Multiple rows with NULL are permitted by a UNIQUE constraint (at least in standard SQL -- I haven't confirmed this with a test against SQL Server 2005).

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Which column would you put a unique constraint on Bill? I don't think I understand your solution. Are you saying you'd create a calculated attribute that is equal to Id when RecordStatus = 2? That could work. Other than that, it won't. RecordStatus can only be 1 or 2 (i.e., not null) and even if it could be, you could only have one active record in the entire table rather than one active record per id. Please elaborate. Thanks a lot. –  D. Patrick May 15 '09 at 13:41
No, I was saying you must use NULL as the RecordStatus for deleted entries. Then create a UNIQUE constraint over the pair of columns (ID, RecordStatus). Thus you could have multiple deleted entries per ID but only a single entry with RecordStatus = 1 per ID. –  Bill Karwin May 15 '09 at 16:03
That makes sense. If null was an option, that'd work well and wouldn't get the potential performance hit of the check constraint if the table is large. –  D. Patrick May 15 '09 at 16:30
SQL Server deviates from ANSI SQL in that it indexes NULL keys, so unique indexes don't allow multiple NULLs. In other words, you can't do that in SQL Server 2005 or earlier, and in 2008 or later you have to use a filtered index like in canon's answer. –  MattW Oct 14 '13 at 19:26
@MattW, thanks for the info! Another reason I don't use Microsoft SQL Server. It has a lot of impressive features, but it also has its share of "WTF?" moments. –  Bill Karwin Oct 14 '13 at 19:34
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You could move the deleted records to a table that lacks the constraint, and perhaps use a view with UNION of the two tables to preserve the appearance of a single table.

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That's actually pretty clever Carl. It's not an answer to the question per se, but it's a good solution. If the table has a lot of rows, that could also speed up looking for an active record because you could look at the active record table. It would also speed up the constraint because the unique constraint uses an index as opposed to the check constraint I wrote below which has to execute a count. I like it. –  D. Patrick May 15 '09 at 13:44
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You can do this in a really hacky way...

Create an schemabound view on your table.

CREATE VIEW Whatever SELECT * FROM Table WHERE RecordStatus = 1

Now create a unique constraint on the view with the fields you want.

One note about schemabound views though, if you change the underlying tables you will have to recreate the view. Plenty of gotchas because of that.

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This is a pretty good suggestion, and not that "hacky". Here is more information about this filtered index alternative. –  Scott Whitlock Jul 29 '11 at 12:37
It's a bad idea. The question is not it. –  FabianoLothor Aug 1 '12 at 17:50
I used a schemabound view once, and have never repeated the mistake. They can be a royal pain to work with. It's not that you have to recreate the view if you change the underlying table - you potentially have to do that for all views, at least in SQL server. It's that you cannot change the table without first dropping the view, which you might not be able to do without first dropping references to it. Oh, plus the storage could be problematic - either because of the space, or because of the cost it adds to insert and update. –  MattW Oct 14 '13 at 19:29
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Because, you are going to allow duplicates, a unique constraint will not work. You can create a check constraint for RecordStatus column and a stored procedure for INSERT that checks the existing active records before inserting duplicate IDs.

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If you can't use NULL as a RecordStatus as Bill's suggested, you could combine his idea with a function-based index. Create a function that returns NULL if the RecordStatus is not one of the values you want to consider in your constraint (and the RecordStatus otherwise) and create an index over that.

That'll have the advantage that you don't have to explicitly examine other rows in the table in your constraint, which could cause you performance issues.

I should say I don't know SQL server at all, but I have successfully used this approach in Oracle.

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good idea, but there are no function based indexed in sql server thanks for the answer though –  np-hard May 14 '09 at 22:58
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Solution described here. Scroll down to "Use Computed Columns to Implement Complex Business Rules"


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