Just got a small question. When trying to get a single max-Value of a table. Which one is better?
SELECT MAX(id) FROM myTable WHERE (whatever)
SELECT TOP 1 id FROM myTable WHERE (whatever) ORDER BY id DESC
I'm using Microsoft SQL Server 2012
There will be no difference as you can test yourself by inspecting the execution plans. If
Having said that, there are some scenarios where the plan can be different, so it is important to test depending on whether the column is indexed and whether or not it is monotonically increasing. I created a simple table and inserted 50000 rows:
On my system this created values in a/c from 1 to 50000, b/d between 3 and 9994, e/g from 2010-01-01 through 2011-05-16, and f/h from 2009-04-28 through 2012-01-01.
First, let's compare the indexed monotonically increasing integer columns, a and c. a has a clustered index, c does not:
The big problem with the 4th query is that, unlike
This will be a common problem across all of these query variations: a
I did test and saw the exact same results across testing b+d, e+g, and f+h.
So it seems to me that, in addition to producing more standards-compliance code, there is a potential performance benefit to using
(And as I said before,
The first one is certainly clearer in the intention.
There shouldn't be a significant performance difference thought for this specific query (they should actually be pretty much identical, even though the result is different if there are no rows in
All query optimizers worth their salt should produce query plans with identical performance for both queries: if there is an index on the column being optimized, both queries should use it; if there is no index, both would produce a full table scan.
Whether you need 1 row or 100 rows the optimizer has to do same amount of work in this example i.e. read all the rows from the table(clustered index scan).Then sort all those rows(sort opertaion) as there is no index on the column C..Finally just display which one are needed.
Try above code and here top 1 and top 100 shows diff cost because there is an index on column b. Thus in this case you do not need to read all rows and sort them but the work is to go to last page pointer.For one row read the last row on last leaf page of index. TFor 100 row find the last row on last page and then start the backward scan till you get the 100 rows.