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I have a SQL 2008 R2 Database with about 2 million rows in one of the tables and am struggling with the performance of a specific query when using parameterized SQL.

In the table, there's a field containing a name in it:

[PatientsName] nvarchar NULL,

There's also a simple index on the field:

CREATE NONCLUSTERED INDEX [IX_Study_PatientsName] ON [dbo].[Study] 
    [PatientsName] ASC

When I do this query in the management studio, it takes around 4 seconds to execute:

declare @StudyPatientsName nvarchar(64)
set @StudyPatientsName= '%Jones%'

SELECT COUNT(*) FROM Study WHERE Study.PatientsName like @StudyPatientsName

But, when I execute this query:

SELECT COUNT(*) FROM Study WHERE Study.PatientsName like '%Jones%'

it takes a bit more than a half second to execute.

Looking at the execution plans, the query without parameterization does an Index Scan using the above mentioned index, which obviously is efficient. The parameterized query uses the index, but does a range seek on the index.

Part of the issue is having the leading wildcard. When I remove the leading wildcard, both queries return in a fraction of a second. Unfortunately, I do need to support leading wildcards.

We have a home grown ORM that does parameterized queries where the problem originated. These queries are done based on input from a user, so parameterized queries make sense to avoid things like a SQL injection attack. I'm wondering if there's a way to make the parameterized query function as well as the non-parameterized query?

I've done some research looking at different ways to give hints to the query optimizer, trying to force the optimizer to redo the query plan on each query, but haven't found anything yet to improve the performance. I tried this query:

SELECT COUNT(*) FROM Study WHERE Study.PatientsName like @StudyPatientsName
OPTION ( OPTIMIZE FOR (@StudyPatientsName = '%Jones%'))

which was mentioned as a solution in this question, but it didn't make a difference.

Any help would be appreciated.

share|improve this question
Frankly if you are doing this kind of serch it seems to me your data model is bad. You should not have a patient name field that has both the first and last name. Fix your structural problem first. –  HLGEM Aug 16 '10 at 20:28
I would concur that splitting the name between first and last name would be a viable method to solve the issue in this particular case. Unfortunately, we also have queries on several other non-patient name fields that have the same issue, which have to be resolved also. –  Steve Wranovsky Aug 17 '10 at 14:30

5 Answers 5

up vote 4 down vote accepted

It seems like you want to force a scan. There is a FORCESEEK hint but I couldn't see any analogous FORCESCAN hint. This should do it though.

FROM Study 
WHERE Study.PatientsName + '' like @StudyPatientsName

Although maybe you could try the following on your data and see how it works out .

FROM Study 
WHERE Study.PatientsName  like @StudyPatientsName
option (recompile)
share|improve this answer
He could probably force the scan with an index hint as well. SELECT COUNT(*) FROM Study with (index(IX_Study_PatientsName)) WHERE Study.PatientsName like @StudyPatientsName –  Joe Stefanelli Aug 16 '10 at 20:11
@Joe - It is using the index but doing a range seek on it. I think the plan he is getting is like this declare @StudyPatientsName nvarchar(64) set @StudyPatientsName= '%a%' SELECT COUNT(*) FROM master.dbo.spt_values WHERE type like @StudyPatientsName img826.imageshack.us/img826/3977/executionplan.jpg –  Martin Smith Aug 16 '10 at 20:14
Ah, never mind then. The index usage wasn't clear to me. –  Joe Stefanelli Aug 16 '10 at 20:17
Adding the empty string to the field make (e.g., +'') does work, although it definitely feels like a hack. Adding "option (recompile)" does not improve the performance. I really thought when I initially looked into this that using "option (recompile)" would resolve the issue. there must be something going on with SQL that its not forcing a scan of the index in this case. In any case, I'll give it another day to see if there's other suggested answers, but it looks like this should help solve the issue for me. –  Steve Wranovsky Aug 16 '10 at 20:18
@Steve - I got fairly strange results with recompile as well. It did seem to cause the plan to change for different inputs but I think it must use the statistics in some way and I couldn't really work out whether it was for good or bad. –  Martin Smith Aug 16 '10 at 20:23

I think your best chance of improving performance here is to look into using a full text index.

share|improve this answer
I would concur that this is a viable solution to the problem. In my particular instance, its not practical to use a full text index, but this would be another way to get around the quirk in SQL Server it seems I've discovered. –  Steve Wranovsky Aug 17 '10 at 14:29

I'm having trouble finding the documentation to verify this, but IIRC, COUNT(*) does a full table scan in MS SQL (as opposed to using a cached value). If you run it against a column which cannot be null and/or has an index defined, I believe (again, still can't find docs to confirm, so I could be off base here) that will be faster.

What happens when you modify the query to something like:

SELECT COUNT(id) FROM Study WHERE Study.PatientsName Like @StudyPatientsName


SELECT COUNT(PatientsName) FROM Study 
WHERE Study.PatientsName 
LIKE @StudyPatientsName
share|improve this answer
I tried a query select count(Guid) and select count(PatientsName) and in both cases, the queries were slow. I also tries just a select * from Study with the same where clause, and it also took roughly the same amount of time to execute. –  Steve Wranovsky Aug 16 '10 at 17:13

If all else fails you could try

SELECT COUNT(*) FROM Study WITH(INDEX(0)) WHERE Study.PatientsName like @StudyPatientsName

Perhaps you could wrap it in an IF

IF substring(@StudyPatientsName, 1, 1) = '%'
    SELECT COUNT(*) FROM Study WITH(INDEX(0)) WHERE Study.PatientsName like @StudyPatientsName
    SELECT COUNT(*) FROM Study WHERE Study.PatientsName like @StudyPatientsName

Edit: As martin pointed out, for this specific query this is probably not the best way to do it since an index scan of the existing index is likely faster. It might be applicable in similar situations, though.

share|improve this answer
I agree that making a special case for leading wildcards would be a good idea. I don't think the index hint would make any difference though. The issue is that it uses the correct index but in an inefficient way that seems to add to the amount of I/O. To reproduce try set statistics io on declare @StudyPatientsName nvarchar(64) set @StudyPatientsName= '%%' SELECT COUNT(*) FROM master.dbo.spt_values WHERE type like @StudyPatientsName then compare plan and I/0 with WHERE type+'' like @StudyPatientsName –  Martin Smith Aug 17 '10 at 13:40
According to the docs, INDEX(0) will force a table/clustered index scan (not seek). I doubt you can do better than this. The problem is that there is no way to use an index to do a LIKE with a leading wildcard. –  erikkallen Aug 17 '10 at 13:48
My answer does better than this! The nonclustered index IX_Study_PatientsName should completely cover this query so that's the one that needs to be scanned. This will presumably be a lot narrower as it only contains the name column and a scan of it will involve a lot less I/O. –  Martin Smith Aug 17 '10 at 13:54
@Martin: You are right. I'll let the answer stand with this remark, though. –  erikkallen Aug 17 '10 at 14:46

Maybe you can try this:

declare @StudyPatientsName nvarchar(64)
set @StudyPatientsName= 'Jones'

select count(*) 
from Study 
where Study.PatientsName like '%' + @StudyPatientsName + '%'

you can also add with(nolock) and it might help:

select count(*) 
from Study  with(nolock)
where Study.PatientsName like '%' + @StudyPatientsName + '%'
share|improve this answer
No, don't ever use WITH(NOLOCK) as a generic solution to "there is a problem with performance but I don't know what it is" problem. –  erikkallen Aug 16 '10 at 19:44
with(nolock) helps speed up the query, and it's not a bad thing as long as you're aware of you data. Whether it is fine to use with(nolock) or data is too critical and can't use with "with(nolock)". why would you even down voted my answer? although, it's a possible solution to his or other's issue. –  koderoid Aug 16 '10 at 19:46
Becasue it is a bad thing many times. You are getting dirty data. This is a critical bug in many systems so it should not be a recommended answer as a general solution. –  HLGEM Aug 16 '10 at 20:25
and the person doing the asking is not the only consumer of the answer. –  HLGEM Aug 16 '10 at 21:35
I downvoted it for the exact reason in my first comment: You are suggesting with(nolock) as a generic performance problem solver. It is, however, obvious to anyone who knows query plans that the issue is that the optimizer chooses an index seek + bookmark lookup when a clustered index scan would be better. Therefore, your answer doesn't help the OP, and it is outright dangerous if someone googles this question and blindly applies your "solution". –  erikkallen Aug 17 '10 at 13:19

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