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I was conducting some performance testing and have discovered something quite strange. I have set up a short script to time how long it takes to perform certain actions.

declare @date date
declare @someint int
declare @start datetime
declare @ended datetime
set @date = GETDATE()

DECLARE @count INT
SET @count = 0

set @start = GETDATE()

WHILE (@count < 1000)
BEGIN

--Insert test script here 

END

set @ended = GETDATE()

select DATEDIFF( MILLISECOND, @start, @ended)

The table I was running tests againsts contains 3 columns, MDay, and CalDate. Every calendar date has a corresponding M(Manufacturing)Day. The table may look something like this:

MDay  |  CalDate
  1   | 1970-01-01
  2   | 1970-01-02

I wanted to test how efficient one of our functions was. This function simply takes in a date and returns the int MDay value. I used direct access, basically the same thing without the function, and tests resulted in this method take twice as long! Code I inserted into the loop is provided below. I used a random date in an attempt to eliminate caching (if exist).

Function

select @someint = Reference.GetMDay(DATEADD( D, convert(int, RAND() * 1000) , @date))

Definition for above

create Function [Reference].[GetMDay]
    (@pCaLDate smalldatetime
    )
    Returns int
as

Begin
Declare @Mday  int

Select @Mday = Mday 
from Reference.MDay
where Caldate = @pCaLDate

Direct

select @someint = MDay from Reference.MDay where CalDate = DATEADD( D, convert(int, RAND() * 1000) , @date)

I even tried using a static @date for my direct code and the difference in times are negligible, so I know the convert call isn't holding it back. What the heck is going on here?

share|improve this question
    
Sorry, I know why the result differs, but I deleted the answer because Martin Smith downvoted it and says that it's nonsense. –  Guffa Feb 8 '13 at 18:56
    
@Guffa - It was nonsense. Your inability to find any documentation to back up your theory shows this. –  Martin Smith Feb 8 '13 at 18:57
    
@MartinSmith: I didn't see you showing any documentation either. What are you doing, and who do you think that it gains? –  Guffa Feb 8 '13 at 19:02
1  
@Jeff - Which did you try first? Also did you try running this test more than once? Maybe the first run brought data pages into cache that benefited subsequent runs or maybe it was just due to transient conditions on the server –  Martin Smith Feb 8 '13 at 19:19
1  
@Guffa - Incorrect Answers are more of a hinderance than a help. SQL Server does not automatically memoize the result of scalar UDF calls into some cache of previous results as your answer claimed. –  Martin Smith Feb 8 '13 at 19:21

1 Answer 1

Take a look at http://msdn.microsoft.com/en-us/library/ms178071%28v=sql.105%29.aspx is the execution plan the same on your sql server for both methods?

share|improve this answer
    
I've never used this tool. Seems interesting. Both execution plans are really similar in that the cost to query the table is 97% of the work. There is green text that states Missing Index (Impact 94.3642): Create Nonclustered Index[<Name of Missing Index, sysname,>] ON [Reference].[MDay](CalDate). What does it all mean? –  Jeff Feb 8 '13 at 18:47
    
@Jeff: It means that the query planner sees that the query would very likely run significantly faster if you added the index. –  Guffa Feb 8 '13 at 18:54
    
I've created another table that includes a proper index and changes are negligible. The suggestion posted above is no longer there. –  Jeff Feb 8 '13 at 19:28

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