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,
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).
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
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?