Ric Ramblings

Friday, April 12, 2024

EXISTS vs EQUALITY - sand in the gears

The best thing about doing SQL Optimization is there is always something that needs attention.

The worse thing about doing SQL Optimization is there is always something that needs attention.

A colleague in my team ran across some code that looked like this:

SELECT OWNER, OBJECT_NAME, OBJECT_TYPE
FROM big_tab bigtab
WHERE 1 = ( SELECT    1    FROM   allusers_tab alluserstab
      WHERE   bigtab.owner = alluserstab.username
            and rownum = 1   );

This has been changed to protect the innocent to a couple of tables in my test database, but the core of the code is the same.  It’s doing a select to see if there is a match between the two tables and returns a 1 if there is, and (this is important) using ROWNUM=1 to make sure it only gets one row.  (BIG_TAB has about 4 million rows and ALLUSERS_TAB has about 50, so the test is a bit more exciting than the good old EMP and DEPT tables.)

I assume many of us SQL coders will say “Hey, just use an EXISTS operator!” And that is exactly what you should do and not this.  But does it really matter?  Is this just a different style?

Yes, it does matter, and here is where the ROWNUM=1 becomes important.

If you just change this to an EXISTS and leave the ROWNUM=1 in place, the plan really doesn’t change.   The core plan looks like this for the plan with 1 =  (bla) or EXIST (bla).

--------------------------------------------------
| Id | Operation                  | Name        |
--------------------------------------------------
|   0 | SELECT STATEMENT           |             |
|* 1 | FILTER                    |             |
|   2 |   TABLE ACCESS STORAGE FULL| BIG_TAB     |
|* 3 |   COUNT STOPKEY            |             |
|* 4 |    INDEX UNIQUE SCAN       | USERNAME_PK |
--------------------------------------------------

If you change the code using an EXISTS and remove the ROWNUM = 1 like this (what is returned by the inner query doesn’t matter, that value is not used, just "did this return a row or not") :

SELECT OWNER, OBJECT_NAME, OBJECT_TYPE
FROM big_tab bigtab
WHERE EXISTS ( SELECT 1 FROM allusers_tab alluserstab
WHERE bigtab.owner = alluserstab.username );

And the plan looks like this:

--------------------------------------------------
| Id | Operation                  | Name        |
--------------------------------------------------
|   0 | SELECT STATEMENT           |             |
|* 1 | HASH JOIN                 |             |
|   2 |   INDEX FULL SCAN          | USERNAME_PK |
|   3 |   TABLE ACCESS STORAGE FULL| BIG_TAB     |
--------------------------------------------------

Which is a better-looking plan, but does it matter? Turns out it does.

I ran both of these 1000 times in a PL/SQL block capturing elapsed time and CPU time. The difference is not huge but it is better to use the EXISTS without the ROWNUM = 1. This is like sand in the gears. This construct is unlikely to show up as the high nail that needs to be pounded down, but is a bit more friction in the run. In the case of the statement my colleague found, this construct was used many times within the query. Fixing this will help (at this time testing and such is still ongoing), but I don't expect this alone to be the thing that cuts the run time dramatically. Maybe it will as it is used several times in the query. But it would be because there are several of them not just one.

Some folks might be thinking, don’t I need the ROWNUM=1 to make sure only one row comes back for the EXISTS operator?

No. The EXISTS operator will stop once a row is found, even if many rows could be returned, it stops after the first one. In effect the EXISITS operator is only looking at the return code so to speak, did this return a row? Yes, then stop.

Here is the timing information for the 1000 runs. (The test was done on an always free autonomous database):

Doing the Equality check 1000 times:

Times in hundredths of a second

**** TIME - 25195

**** CPU - 24653

Doing the EXISTS (without ROWNUM=1) 1000 times:

Times in hundredths of a second
**** TIME - 20090
**** CPU - 19790

To make the test a bit easier I did warp each statement in a SELECT COUNT(*) FROM (bla) construct. The plan for the statement did stay about the same, just the counter mechanism added on.

= = = = = = = = = = = = = = = = = = = = = = = = = = = = =

Here is the code I used to do the timing test:

SET SERVEROUTPUT ON

DECLARE
    l_start_time pls_integer;
    l_start_cpu  pls_integer;
    Cursor test_cur01 is
    select count(*) from (
    SELECT OWNER, OBJECT_NAME, OBJECT_TYPE
         FROM big_tab bigtab
         WHERE 1 = (  SELECT    1    FROM   allusers_tab alluserstab
                        WHERE   bigtab.owner = alluserstab.username
                           and rownum = 1   ) );
    Cursor test_cur02 is
    select count(*) from (SELECT OWNER, OBJECT_NAME, OBJECT_TYPE
       FROM big_tab bigtab
       WHERE Exists ( SELECT  1 FROM allusers_tab alluserstab
      WHERE bigtab.owner = alluserstab.username));
   cur01_rec test_cur01%rowtype;
   cur02_rec test_cur02%rowtype;
BEGIN
    l_start_time := DBMS_UTILITY.GET_TIME;
    l_start_cpu  := DBMS_UTILITY.GET_CPU_TIME;
       for i in 1 .. 1000 loop
       open test_cur01;
       fetch test_cur01 into cur01_rec;
       close test_cur01;
       end loop;
    DBMS_OUTPUT.put_line ('Times in hundredths of a second');
    DBMS_OUTPUT.put_line ('**** TIME   - '||to_char(DBMS_UTILITY.get_time - l_start_time));
    DBMS_OUTPUT.put_line ('**** CPU    - '||to_char(DBMS_UTILITY.GET_CPU_TIME - l_start_cpu));
        l_start_time := DBMS_UTILITY.GET_TIME;
    l_start_cpu  := DBMS_UTILITY.GET_CPU_TIME;
       for i in 1 .. 1000 loop
       open test_cur02;
       fetch test_cur02 into cur02_rec;
       close test_cur02;
       end loop;
    DBMS_OUTPUT.put_line ('Times in hundredths of a second');
    DBMS_OUTPUT.put_line ('**** TIME   - '||to_char(DBMS_UTILITY.get_time - l_start_time));
    DBMS_OUTPUT.put_line ('**** CPU    - '||to_char(DBMS_UTILITY.GET_CPU_TIME - l_start_cpu));
END;
/

Wednesday, January 17, 2024

A misunderstanding about the Materialize hint

I think I have found out why some folks are resisting using this hint when defining a CTE (Common Table Expression). There apparently is a misunderstanding about what this hint does.

This doesn’t cause the CTE to be kept in memory (the PGA) after the query finishes. This only forces the optimizer to not “merge” it back into the main query. A materialized CTE will store the results set in a GTT (Global Temp Table) like structure during the run of the statement. This GTT is dropped once the query finishes.

I say again, the GTT is dropped and is not kept in the PGA once the query finishes.

So, what does the hint do and why do I recommend using it pretty much all the time?

What it does is force the optimizer to keep the CTE as a separate unit and not merge (refactor) it back into the main query. Generally merging the CTE back into the query is not what we want to have happen. We just spent all this time and effort to write the code with a CTE and then the optimizer negates all that work.

I can count on one hand the number of times that the materialize hint made a query worse. Sometimes it doesn’t matter, the optimizer will materialize a CTE with or without the hint. For example, if the CTE is referenced more than one time, the optimizer will automatically materialize the CTE.

One more time, with feeling, the GTT used during the run of a query for a materialized CTE is DROPPED after the statement finishes.

I have several blog posts raving about all the wonderful things a CTE can do to make queries run better faster and stronger. Please see these for ideas on how you can use them to speed up your code.

Tuesday, December 26, 2023

CTEs and UNIONs, Wrap it up!

CTEs (Common Table Expressions) can solve a lot of performance issues. Maybe not all of them, but a majority of them.

I ran into a situation recently that was quite frustrating. A customer I was working with had created a rather large and complex CTE that was 3 select statements with the UNION ALL operation pulling them together. I’m a huge fan of the /*+ MATERIALIZE */ hint for CTEs as this will keep the CTE as a separate entity. Using this hint more times than not is best for performance.

But this CTE wouldn’t get materialized. It was in effect ignoring the hint.

Turns out a CTE using UNION or UNION ALL will do this. I didn’t find any official documentation on this, given that the MATERIALIZE hint is really undocumented anyway, this is not a surprise.

A solution I found was to “wrap it” in another select.

Here is an example query to illustrate the technique. Yes, this is a silly query but it works for showing what I’m talking about.

WITH loc_cte AS (

SELECT /*+ MATERIALIZE */

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'NEW YORK'

UNION

SELECT

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'DALLAS'

UNION

SELECT

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'CHICAGO'

)

SELECT ename, sal, dname FROM loc_cte

ORDER BY sal, ename;

For this one the explain plan looks like below. Notice there is not a materialized object for the CTE, the main query and the CTE have been merged together. There are remnants of the CTE in here, but key is that the CTE is not being materialized. (The focus here is not what the optimizer did when it transformed the query. Maybe a topic for another day.)

--------------------------------------------------------------------------------------------

--------------------------------------------------------------------------------------------

| 0 | SELECT STATEMENT | | 12 | 348 | 00:00:01 |

| 1 | SORT ORDER BY | | 12 | 348 | 00:00:01 |

| 2 | VIEW | | 12 | 348 | 00:00:01 |

| 3 | SORT UNIQUE | | 12 | 414 | 00:00:01 |

| 4 | UNION-ALL | | | | |

| 5 | NESTED LOOPS | | 3 | 99 | 00:00:01 |

| 6 | NESTED LOOPS | | 5 | 99 | 00:00:01 |

|* 7 | TABLE ACCESS STORAGE FULL | DEPT | 1 | 20 | 00:00:01 |

|* 8 | INDEX RANGE SCAN | EMP_DEPT_IDX | 5 | | 00:00:01 |

| 9 | TABLE ACCESS BY INDEX ROWID | EMP | 3 | 39 | 00:00:01 |

| 10 | NESTED LOOPS | | 9 | 315 | 00:00:01 |

| 11 | NESTED LOOPS | | 10 | 315 | 00:00:01 |

| 12 | VIEW | VW_JF_SET$5E11AB46 | 2 | 44 | 00:00:01 |

| 13 | SORT UNIQUE | | 2 | 40 | 00:00:01 |

| 14 | UNION-ALL | | | | |

|* 15 | TABLE ACCESS STORAGE FULL| DEPT | 1 | 20 | 00:00:01 |

|* 16 | TABLE ACCESS STORAGE FULL| DEPT | 1 | 20 | 00:00:01 |

|* 17 | INDEX RANGE SCAN | EMP_DEPT_IDX | 5 | | 00:00:01 |

| 18 | TABLE ACCESS BY INDEX ROWID | EMP | 4 | 52 | 00:00:01 |

--------------------------------------------------------------------------------------------

Now the change to the plan is to wrap the CTE in a select. I’d recommend you don’t use SELECT * for the wrapping select. I’m not a fan of this syntax as it can cause problems.

WITH loc_cte AS (

select /*+ MATERIALIZE */ ename, sal, dname from (

SELECT

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'NEW YORK'

UNION

SELECT

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'DALLAS'

UNION

SELECT

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'CHICAGO'

))

SELECT ename, sal, dname FROM loc_cte

ORDER BY sal, ename;

And now the plan shows the CTE staying as a separate entity (it’s been materialized, Beam me up Scotty!).

-----------------------------------------------------------------------------------------------------------

-----------------------------------------------------------------------------------------------------------

| 0 | SELECT STATEMENT | | 12 | 348 | 00:00:01 |

| 1 | TEMP TABLE TRANSFORMATION | | | | |

| 3 | VIEW | | 12 | 348 | 00:00:01 |

| 4 | SORT UNIQUE | | 12 | 828 | 00:00:01 |

| 5 | UNION-ALL | | | | |

| 6 | NESTED LOOPS | | 3 | 99 | 00:00:01 |

| 7 | NESTED LOOPS | | 5 | 99 | 00:00:01 |

|* 8 | TABLE ACCESS STORAGE FULL | DEPT | 1 | 20 | 00:00:01 |

|* 9 | INDEX RANGE SCAN | EMP_DEPT_IDX | 5 | | 00:00:01 |

| 10 | TABLE ACCESS BY INDEX ROWID | EMP | 3 | 39 | 00:00:01 |

| 11 | NESTED LOOPS | | 9 | 315 | 00:00:01 |

| 12 | NESTED LOOPS | | 10 | 315 | 00:00:01 |

| 13 | VIEW | VW_JF_SET$B1ADC4B5 | 2 | 44 | 00:00:01 |

| 14 | SORT UNIQUE | | 2 | 80 | 00:00:01 |

| 15 | UNION-ALL | | | | |

|* 16 | TABLE ACCESS STORAGE FULL | DEPT | 1 | 20 | 00:00:01 |

|* 17 | TABLE ACCESS STORAGE FULL | DEPT | 1 | 20 | 00:00:01 |

|* 18 | INDEX RANGE SCAN | EMP_DEPT_IDX | 5 | | 00:00:01 |

| 19 | TABLE ACCESS BY INDEX ROWID | EMP | 4 | 52 | 00:00:01 |

| 20 | SORT ORDER BY | | 12 | 348 | 00:00:01 |

| 21 | VIEW | | 12 | 348 | 00:00:01 |

| 22 | TABLE ACCESS STORAGE FULL | SYS_TEMP_3FD9E6966_7A9C9340 | 12 | 348 | 00:00:01 |

-----------------------------------------------------------------------------------------------------------

And there you have it! Here is the full script if you’d like to run it on your own. Enjoy!

explain plan for

WITH loc_cte AS (

SELECT /*+ MATERIALIZE */

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'NEW YORK'

UNION

SELECT

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'DALLAS'

UNION

SELECT

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'CHICAGO'

)

SELECT ename, sal, dname FROM loc_cte

ORDER BY sal, ename;

set lines 4000

set pages 5000

select * from table(DBMS_XPLAN.display(format=>'advanced -cost -projection'));

explain plan for

WITH loc_cte AS (

select /*+ MATERIALIZE */ ename, sal, dname from (

SELECT

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'NEW YORK'

UNION

SELECT

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'DALLAS'

UNION

SELECT

ename, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno

AND dept.loc = 'CHICAGO'

))

SELECT ename, sal, dname FROM loc_cte

ORDER BY sal, ename;

set lines 4000

set pages 5000

select * from table(DBMS_XPLAN.display(format=>'advanced -cost -projection'));

Thursday, May 18, 2023

Using the MATERIALIZE hint correctly

I see queries like this from time to time:

SELECT /*+ materialize */ * FROM (SELECT bla-bla-bla…);

I’m pretty sure that the MATERIALIZE hint is doing nothing when used in this way. The MATERIALIZE hint is for CTEs (common table expressions) crated using the WITH clause. I am unable to see what is does for any other use. If someone can send me a repeatable test case that I can run showing it does something in other cases I’m open to being proven wrong.

This is the type of statement where the hint works as expected. This creates a structure that is similar to a Global Temp Table, this structure is dropped after the statement completes.

WITH emp_dept_cte AS (

SELECT /*+ materialize */ empno, sal, dname

FROM

emp,dept

WHERE

emp.deptno = dept.deptno

)

SELECT * FROM emp_dept_cte;

But it doesn’t work when I write something like this:

Select /*+ materialize */ * from (SELECT empno, sal, dname

FROM

emp, dept

WHERE

emp.deptno = dept.deptno )

In this query no matter where I put the MATERIALIZE hint, no temp table like object is created and used.

In the plan for the first query above I can clearly see the temp table being created in the auto trace with the step LOAD AS SELECT and an object name that starts with SYS_TEMP_ followed by an apparent random combination of numbers and letters. (I’m pretty sure it’s a hexadecimal number for the internal object.)

Using the MATERLIZE hint when not using the WITH clause, I do not see this step in the plan. Hence no temp table like structure.

Have a great day!

Sunday, April 30, 2023

Optimizing your SQL starts before you write any code

Writing good SQL is more about how you think than what you write. The problem that most of us have is that we think in terms of individual rows when we really need to think more in terms of sets of rows.

Of course, this is natural for us to do since the end product is the individual rows, and we don’t necessarily think of them as a set. But they are. They are a set that satisfies the conditions that the business defines for the data they want.

We need to think this way always when writing and optimizing our SQL. Too often we write code that is very much “row-by-row” (or as Tome Kyte would say “row-by-slow”). The classic example is the correlated subquery in the SELECT list. This will return a row for each row defined by the calling (outer) query. The optimizer has a neat trick called subquery caching where it will cache values for “repeating” values coming into it. That is great and the subquery can run less frequently.

However, this isn’t always possible. If the values being passed in are relatively unique the saving by this can be minimal, and if totally unique it doesn’t help at all. Also, it only can cache so many values (version dependent) and there is a problem of HASH collisions as it uses a hash algorithm to store the values in a hash table. Bottom line, don’t count on this to save your performance.

Better to not have correlated subqueries in the select list. Of course, ones that run for a very few distinct values can be fine. What I talking about is the ones that run thousands or millions of times. Just making these run faster isn’t really solving the problem either, you’re just kicking the can down the road. As the data volume increases (and it always does) this will eventually not be fast enough.

I’m a huge fan of CTEs (Common Table Expressions). I’ve written several posts about these. In my experience CTEs can solve something like 80% of performance problems. And for the correlated subquery they are the best solution.

This is also thinking in terms of sets of rows (values), not one at a time. For that correlated subquery, how can I get all the possible values I would need for the subquery all at once and not one at a time? The CTE is the perfect solution. This isn’t the only way they can be used to help performance, but it is one of the most powerful.

Sunday, March 12, 2023

Looking back after 21,915 days.

This March I hit the milestone of turning 60. It’s been quite a ride. And it seems appropriate to pass on some thoughts on life to others.

I tell my kids 3 things that they should do in life. These are not hard or difficult to do, it’s the doing them that is the hard part.

Save more Money. Seems simple enough and we’ve all heard variations on this likely throughout our lives. The issue is you don’t really understand how important this is until you are in your older years. Like I am now. Retirement is all about being able to afford it, it has very little to do with how old you are. The money you have saved, be it 401Ks, IRAs, savings accounts and so on, is key. It doesn’t take a financial genius to know the more money you have, the more options you will have when the time comes.

Don’t change Jobs/Companies too much. As I look back, I did stay in my career path all along, but I believe I may have switched companies more than I should have. This is a tough one of course, there can be very good reasons to move. This also reflects on my first bit, saving money. Staying with a company that provides retirement benefits for longer can mean more money saved for the retirement time. I moved to some small companies over time and the immediate pay increase was good, however in the long run I ended up behind the curve for this thing called retirement. Of course, had I put away more of the increase of money, then I would be in a better place. Also, things are quite different now. When I first started working, there were these things called pension plans. Those are pretty much like the dinosaurs, now it’s all about managing a 401K or like which can be portable.

Keep in contact with folks. The folks I kept in contact with did help me in many ways over time, and I hope I have helped them in return. I do wonder about some of the folks that I didn’t keep in contact with, if things might be better for both them and me. We are herd animals after all, so getting thru this thing called life, we need others to help us along. Having folks to chat with about life and work events is a great thing. You never know when a call to a friend can help lift them (and you) up out of a bad moment in life.

One thing I will add to my advice for my kids is to keep yourself physically fit. This is more about stamina and not so much about being ripped. Like being able to walk a good distance at a good pace and not being exhausted. For me at 60 I shoot for something like 15-18 minutes for a 1 mile walk. A case in point, I have recently been helping my 82-year-old father thru a surgery and I can see that his lack of physical fitness (stamina) has made his recovery much more difficult.

Another seemingly small thing, have a hobby you can do when your older and can’t move about as well as you did when you were younger and more agile. It’s great to have a physical hobby like jogging or playing a sport. But what happens if you are bed ridden for a while; recovering from an injury or a surgery? Like my dad is right now. Recovery time is longer the older you get; shocking I know. Or you just can no longer do that physical activity anymore? Something like reading, building a puzzle, sudoku, or crossword might be all you can do. Playing games is also great. There are thousands of great games out there from large strategy games to small adventure games. These can be card based, hex and counter, dice, miniatures and all kinds of different styles. Many can be played solo and with other folks. There are a lot of themes for these games as well, war games (historical and fictional), racing, sports, firefighting, fantasy, science fiction, trains, super heroes, and so on. Yes, I’m a huge gamer. I have more games than a rational person should have. But I’m hopeful that when I get to retirement, I’ll have the time to play these games. The picture in this post is most of my games, but not all.

I hope those of you who read this thru will take these words of advice and fit them into your life in the way that works for you.