Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I want a unique constraint on a column which I am going to populate with a GUID. However, existing data contains null values. How do I create the constraint but allow null values?

share|improve this question
add comment

9 Answers

up vote 13 down vote accepted

Prior to SQL Server 2008

You cannot create a UNIQUE constraint and allow NULLs. You need set a default value of NEWID().

Update the existing values to NEWID() where NULL before creating the UNIQUE constraint.

SQL Server 2008 +

You can create a unique index with a WHERE clause.

share|improve this answer
and this will retrospectively add values to existing rows, if so this is what I need to do, thanks? –  Stuart Apr 20 '09 at 10:26
You would need to run an UPDATE statement to set the existing values to NEWID() where the existing field IS NULL –  Jose Basilio Apr 20 '09 at 10:32
ok, think I'll go for this, Seems simpler solution for what I need than creating a view, thanks –  Stuart Apr 20 '09 at 10:36
If you are using SQL Server 2008 or later, see the answer below with over 100 upvotes. You can add a WHERE clause to your Unique Constraint. –  D-Money Feb 8 '13 at 22:01
This is MSSQL only? –  weisjohn Feb 12 '13 at 17:07
show 1 more comment

What you're looking for is indeed part of the ANSI standards SQL:92, SQL:1999 and SQL:2003, ie a UNIQUE constraint must disallow duplicate non-NULL values but accept multiple NULL values.

In the Microsoft world of SQL Server however, a single NULL is allowed but multiple NULLs are not...

In SQL Server 2008, you can define a unique filtered index based on a predicate that excludes NULLs:

ON YourTable(yourcolumn)
WHERE yourcolumn IS NOT NULL;

In earlier versions, you can resort to VIEWS with a NOT NULL predicate to enforce the constraint.

share|improve this answer
That tip does not get enough love. –  Kjensen Jun 9 '09 at 14:29
Thank you @Vincent Buck. You're a legend. –  bgs264 May 28 '10 at 8:55
I am trying to do exactly this in SQL Server 2008 Express edition and I get an error as follows: CREATE UNIQUE NONCLUSTERED INDEX UC_MailingId ON [SLS-CP].dbo.MasterFileEntry(MailingId) WHERE MailingId IS NOT NULL Results in: Msg 156, Level 15, State 1, Line 3 Incorrect syntax near the keyword 'WHERE'. If I remove the where clause the DDL runs fine, but of course, doesn't do what I need it to. Any ideas? –  Kenneth Baltrinic Jul 16 '10 at 18:07
I think this deserves to be the "Accepted Answer." –  druciferre Jul 26 '12 at 13:41
Truly a great answer. Too bad it was hidden by the one accepted as answer. This solution almost didn't get to my attention, but it works like wonders in my implementation now. –  Coral Doe Oct 24 '12 at 7:55
show 12 more comments

Materialized View Not Required

For SQL 2005 and earlier, you can do it without a view. I just added a unique constraint like you're asking for to one of my tables. Given that I want uniqueness in column SamAccountName, but I want to allow multiple NULLs, I used a materialized column rather than a materialized view:

ALTER TABLE dbo.Party ADD SamAccountNameUnique
   AS (Coalesce(SamAccountName, Convert(varchar(11), PartyID)))
ALTER TABLE dbo.Party ADD CONSTRAINT UQ_Party_SamAccountName
   UNIQUE (SamAccountNameUnique)

You simply have to put something in the computed column that will be guaranteed unique across the whole table when the actual desired unique column is NULL. In this case, PartyID is an identity column and being numeric will never match any SamAccountName, so it worked for me. You can try your own method--be sure you understand the domain of your data so that there is no possibility of intersection with real data. That could be as simple as prepending a differentiator character like this:

Coalesce('n' + SamAccountName, 'p' + Convert(varchar(11), PartyID))

Even if PartyID became non-numeric someday and could coincide with a SamAccountName, now it won't matter.

This DOES take space in the table, which may not be the best for you, though. In SQL Server 2008 and up, definitely use the filtered solution!

Note that you can also add the keyword PERSISTED to the end of the column definition if you don't want an index but wish to use some disk space for precalculation of the expression in order to save CPU later.


Please note that some database professionals will see this as a case of "surrogate NULLs", which definitely have problems (mostly due to issues around trying to determine when something is a real value or a surrogate value for missing data; there can also be issues with the number of non-NULL surrogate values multiplying like crazy).

However, I believe this case is different. The computed column I'm adding will never be used to determine anything. It has no meaning of itself, and encodes no information that isn't already found separately in other, properly defined columns. It should never be selected or used.

So, my story is that this is not a surrogate NULL, and I'm sticking to it! Since we don't actually want the non-NULL value for any purpose other than to trick the UNIQUE index to ignore NULLs, our use case has none of the problems that arise with normal surrogate NULL creation.

All that said, I have no problem with using an indexed view instead--but it brings some issues with it such as the requirement of using SCHEMABINDING. Have fun adding a new column to your base table (you'll at minimum have to drop the index, and then drop the view or alter the view to not be schema bound). See the full (long) list of requirements for creating an indexed view in SQL Server.


If your column is numeric, there may be a challenge of ensuring that the unique constraint using Coalesce does not result in collisions. In that case, there are some options. One might be to use a negative number, to put the "surrogate NULLs" only in the negative range, and the "real values" only in the positive range. Alternately, the following pattern may be used. In table Issue (where IssueID is the PRIMARY KEY), there may or may not be a TicketID, but if there is one, it must be unique.

ALTER TABLE dbo.Issue ADD TicketUnique AS (CASE WHEN TicketID IS NULL THEN IssueID END); ALTER TABLE dbo.Issue ADD CONSTRAINT UQ_Issue_Ticket_AllowNull UNIQUE (TicketID, TicketUnique);

If IssueID 1 has ticket 123, the UNIQUE constraint will be on values (123, NULL). If IssueID 2 has no ticket, it will be on (NULL, 2). Some thought will show that this constraint cannot be duplicated for any row in the table, and still allows multiple NULLs.

share|improve this answer
add comment

Create a view that selects only non-NULL columns and create the UNIQUE INDEX on the view:

FROM    mytable
WHERE   mycolumn IS NOT NULL

CREATE UNIQUE INDEX ux_myview_mycolumn ON myview (mycolumn)

Note that you'll need to perform INSERT's and UPDATE's on the view instead of table.

You may do it with an INSTEAD OF trigger:

CREATE TRIGGER trg_mytable_insert ON mytable
        INTO    myview
        SELECT  *
        FROM    inserted
share|improve this answer
so do i need to change my dal to insert into the view? –  Stuart Apr 20 '09 at 10:22
You may create a trigger INSTEAD OF INSERT. –  Quassnoi Apr 20 '09 at 10:24
add comment

It is possible to create a unique constraint on a Clustered Indexed View

You can create the View like this:

SELECT YourUniqueColumnWithNullValues FROM dbo.YourTable
WHERE YourUniqueColumnWithNullValues IS NOT NULL;

and the unique constraint like this:

  ON dbo.VIEW_OfYourTable(YourUniqueColumnWithNullValues)
share|improve this answer
add comment

When I applied the unique index below:

ON employee(badgeid)

every non null update and insert failed with the error below:

UPDATE failed because the following SET options have incorrect settings: 'ARITHABORT'.

I found this on MSDN

SET ARITHABORT must be ON when you are creating or changing indexes on computed columns or indexed views. If SET ARITHABORT is OFF, CREATE, UPDATE, INSERT, and DELETE statements on tables with indexes on computed columns or indexed views will fail.

So to get this to work correctly I did this

Right click [Database]-->Properties-->Options-->Other Options-->Misscellaneous-->Arithmetic Abort Enabled -->true

I believe it is possible to set this option in code using


but i have not tested this

share|improve this answer
add comment

Maybe consider an "INSTEAD OF" trigger and do the check yourself? With a non-clustered (non-unique) index on the column to enable the lookup.

share|improve this answer
add comment

For people who are using Microsoft SQL Server Manager and want to create a Unique but Nullable index you can create your unique index as you normally would then in your Index Properties for your new index, select "Filter" from the left hand panel, then enter your filter (which is your where clause). It should read something like this:

([YourColumnName] IS NOT NULL)

This works with MSSQL 2012

share|improve this answer
add comment

You can't do this with a UNIQUE constraint, but you can do this in a trigger.

CREATE TRIGGER [dbo].[OnInsertMyTableTrigger]


DECLARE @Column2 INT; -- allow nulls on this column

SELECT @Column1=Column1, @Column2=Column2 FROM inserted;

-- Check if an existing record already exists, if not allow the insert.
IF NOT EXISTS(SELECT * FROM dbo.MyTable WHERE Column1=@Column1 AND Column2=@Column2 @Column2 IS NOT NULL)
    INSERT INTO dbo.MyTable (Column1, Column2)
        SELECT @Column2, @Column2;
    RAISERROR('The unique constraint applies on Column1 %d, AND Column2 %d, unless Column2 is NULL.', 16, 1, @Column1, @Column2);


share|improve this answer
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.