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I have a view that returns 2 ints from a table using a CTE. If I query the view like this it runs in less than a second


However if I query the view like this it takes 4 seconds.


I've checked the 2 query plans and the first query is performing a Clustered index seek on the main table returning 1 record then applying the rest of the view query to that result set, where as the second query is performing an index scan which is returning about 3000 records records rather than just the one I'm interested in and then later filtering the result set.

Is there anything obvious that I'm missing to try to get the second query to use the Index Seek rather than an index scan. I'm using SQL 2008 but anything I do needs to also run on SQL 2005. At first I thought it was some sort of parameter sniffing problem but I get the same results even if I clear the cache.

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What datatype is ID? –  gbn Dec 16 '10 at 10:00
it is an INT field –  Gavin Dec 16 '10 at 10:07

5 Answers 5

up vote 9 down vote accepted

Probably it is because in the parameter case, the optimizer cannot know that the value is not null, so it needs to create a plan that returns correct results even when it is. If you have SQL Server 2008 SP1 you can try adding OPTION(RECOMPILE) to the query.

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+1 Works like a champ here (and much less manual than trying to force various joins/plans, etc.) –  user166390 Jun 18 '12 at 6:12
@pst - This is the right suggested solution but wrong reasoning. The OP has a variable not a parameter. And the issue is selectivity estimates as SQL Server doesn't do variable sniffing. Not "creating a plan that deals with NULL" –  Martin Smith Jun 18 '12 at 17:59
@MartinSmith All the little details that escape me :( All I know is that SQL Server was happily turning a 2 second (in SMSS query) into a I'm-gonna-stop-it-after-10-minute query an SqlCommand (with placeholders) as part of a Typed DataSet. I updated all the statistics (without any options) on the related tables before trying the OPTION(RECOMPILE) route, but that didn't seem to fix the issue. What is meant by the "creating a plan that deals with NULL"? –  user166390 Jun 18 '12 at 21:38
@pst - I was referring to the phrase in this answer " the optimizer cannot know that the value is not null, so it needs to create a plan that returns correct results even when it is.". Maybe the OP was thinking of the pattern WHERE ID = @id or @id IS NULL sometimes used for optional parameters when they wrote it. –  Martin Smith Jun 18 '12 at 21:41
@MartinSmith Ahh. I just skipped to the ATTENTION(GRABBING) suggestion -- in my case the +1 was for a "my problem is fixed" :-) –  user166390 Jun 18 '12 at 21:41

When SQL starts to optimize the query plan for the query with the variable it will match the available index against the column. In this case there was an index so SQL figured it would just scan the index looking for the value. When SQL made the plan for the query with the column and a literal value it could look at the statistics and the value to decide if it should scan the index or if a seek would be correct.

Using the optimize hint and a value tells SQL that “this is the value which will be used most of the time so optimize for this value” and a plan is stored as if this literal value was used. Using the optimize hint and the sub-hint of UNKNOWN tells SQL you do not know what the value will be, so SQL looks at the statistics for the column and decides what, seek or scan, will be best and makes the plan accordingly.

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You could add an OPTIMIZE FOR hint to your query, e.g.

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Came across this same issue myself and it turned out to be a missing index involving a (left) join on the result of a subquery.

select *
from foo A
left outer join (
  select x, count(*)
  from bar
  group by x
) B on A.x = B.x

Added an index named bar_x for bar.x

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In my case in DB table column type was defined as VarChar and in parameterized query parameter type was defined as NVarChar, this introduced CONVERT_IMPLICIT in the actual execution plan to match data type before comparing and that was culprit for sow performance, 2 sec vs 11 sec. Just correcting parameter type made parameterized query as fast as non parameterized version.

Hope this may help someone with similar issue.

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