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Following Various Legal Action Regarding “Oracle Cloud Revenue”

Submitted by kevinclosson on Thu, 2020-02-27 20:54

As a courtesy, I would like to provide a copy of the latest legal document filed in an action being brought against Oracle leadership resulting from alleged, um,  improprieties in revenue reporting over the last few years. There is nothing sacred about this document. Google can find it for you just as easily.

Click on the following link to download the PDF: click here.

From the table of contents:

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SchedLat: a Low Tech Script for Measuring Process CPU Scheduling Latency on Linux

Submitted by tanelpoder on Thu, 2020-02-27 04:18

As you may know, I like to use low tech scripts when possible, ideally such ones that don’t even require you to be root. I prefer simple and “boring” tools as a starting point simply because of the production reality at my customers in traditional enterprise IT. Systems where RHEL6 (and clones) seem to be the most common distros (with Linux kernel 2.6.32) and it’s not too unusual to see RHEL5 occasionally either.

SchedLat: a Low Tech Script for Measuring Process CPU Scheduling Latency on Linux

Submitted by tanelpoder on Thu, 2020-02-27 04:18

As you may know, I like to use low tech scripts when possible, ideally such ones that don’t even require you to be root. I prefer simple and “boring” tools as a starting point simply because of the production reality at my customers in traditional enterprise IT. Systems where RHEL6 (and clones) seem to be the most common distros (with Linux kernel 2.6.32) and it’s not too unusual to see RHEL5 occasionally either.

Shadow IT : Low-code solutions can help!

Submitted by oraclebase on Wed, 2020-02-26 08:24
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I recently had a bit of a rant on email about the current state of Shadow IT at work. Typically, we don’t know it is happening until something goes wrong, then we’re called in to help and can’t, mostly because we don’t have the resources to do it. My rant went something like this…

“This is shadow IT.

Shadow IT is happening because we are not able to cope with the requirements from the business, so they do it themselves.

We need to stop being so precious about tool-sets and use low-code solutions to give the business the solutions to their problems. This allows us to develop them quicker, and in some cases, let them develop their own safely.”

We are not a software house. We are not the sort of company that can take our existing staff and reasonably launch into microservices this, or functions that. In addition to all the big projects and 3rd party apps we deal with, we also need to provide solutions to small issues, and do it fast.

Like many other companies we have massive amounts of shadow IT, where people have business processes relying on spreadsheets or Access databases, that most of us in IT don’t know exist. As I mentioned in the quote above, this is happening because we are failing! We are not able to respond to their demands. Why?

For the most part we make the wrong decisions about technology stacks for this type of work. We just need simple solutions to simple problems, that are quick and easy to produce, and more importantly easy to maintain.

What tool are you suggesting? The *only* thing we have in our company that is truly up to date at this time, and has remained so since it was introduced into the company, is APEX. It also happens to be a low-code declarative development solution, that most of our staff could pick up in a few days. The *only* tool we have that allows us to quickly deliver solutions is APEX. So why are we not using it, or some other tool like it? IMHO because of bad decisions!

You’re an Oracle guy, and you are just trying to push the Oracle stack aren’t you? No. Give me something else that does a similar job of low-code declarative development and I will gladly suggest that goes in the list too. I’ve heard good things about Power Apps for this type of stuff. If that serves the purpose better, I’ll quite happily suggest we go in that direction. Whatever the tool is, it must be something very productive, which doesn’t require a massive learning curve, that also gives us the possibility of allowing the business to development for themselves, in a citizen developer type of way.

It should be noted, we are wedded to Oracle for the foreseeable future because of other reasons, so the “Oracle lock-in” argument isn’t a valid for us anyway.

So you’re saying all the other development stuff is a waste of time? No. In addition to the big and “sexy” stuff, there are loads of simple requirements that need simple solutions. We need to be able to get these out of the door quickly, and stop the business doing stuff that will cause problems down the line. If they are going to do something for themselves, I would rather it was done with a tool like APEX, that we can look after centrally. I don’t want to be worrying if Beryl and Bert are taking regular backups of their desktops…

Are you saying APEX is only good for this little stuff? No! I’m saying it does this stuff really well, so why are we using languages, frameworks and infrastructure that makes our life harder and slower for these quick-fire requirements? Like I said, it’s not about the specific tool. It’s what the tool allows us to achieve that’s important.

What would you do it you could call the shots? I would take a couple of people and task them with working through the backlog of these little requirements using a low-code tool. It might be APEX. It might be something else. The important thing is we could quickly make a positive impact on the way the company does things, and maybe reduce the need for some of the shadow IT. It would be really nice to feel like we are helping to win the war on this, but we won’t until we change our attitude in relation to this type of request.

So you think you can solve the problem of shadow IT? No. This will always happen. What I’m talking about is trying to minimise it, rather than being the major cause of it.

Cheers

Tim…

Shadow IT : Low-code solutions can help! was first posted on February 26, 2020 at 9:24 am.
©2012 "The ORACLE-BASE Blog". Use of this feed is for personal non-commercial use only. If you are not reading this article in your feed reader, then the site is guilty of copyright infringement.

18c versus 19c

Submitted by connor_mc_d on Wed, 2020-02-26 03:28

I had someone say to me at an event recently: “We’re are going to upgrade to 18c, because 19c is new and is probably less stable”.

Let me sum up that sentiment simply: It’s Wrong Smile

Now, don’t get me wrong. I am not claiming that every Oracle release is perfect, contains zero bugs, never has a regression, will mow your lawn, take your kids to school, clean your house and sort out all the climate change issues in the world.

19c is the last of the (for lack of a better term) “generation” of 12c databases. Some customers always leap to every new release as soon as it comes out, because one or more of the new features in that release will yield a competitive advantage or cost saving innovation for them. Other customers view upgrading solely as a necessary evil to stay supported and more importantly stay secure. If you are in the latter category, and you prefer to upgrade infrequently, then 19c is your “go to” release.

Plenty more details about support timeframes etc can be found here but I figured the easiest way to demonstrate picking 19c over 18c is with this simple demo Smile

19c with PL/SQL types



SQL> select banner from v$version;

BANNER
--------------------------------------------------------------------------------
Oracle Database 19c Enterprise Edition Release 19.0.0.0.0 - Production

1 row selected.

SQL> create table tb_test (id number, description varchar2 (50));

Table created.

SQL>
SQL> create or replace package pkg_test is
  2      cursor cur_test is
  3          select *
  4          from tb_test
  5          where 1=2;
  6      type typ_cur_test is table of cur_test%rowtype;
  7      function fn_test(p_rows in number) return typ_cur_test pipelined;
  8  end;
  9  /

Package created.

SQL> create or replace package body pkg_test is
  2      function fn_test(p_rows in number) return typ_cur_test pipelined as
  3      l_tab typ_cur_test := typ_cur_test();
  4      begin
  5          for i in 1..p_rows loop l_tab.extend;
  6              l_tab(i).Id := i;
  7              l_tab(i). Description := 'test';
  8              pipe row(l_tab(i));
  9          end loop;
 10      return ;
 11      end;
 12  end pkg_test;
 13  /

Package body created.

SQL>
SQL> select * from table(pkg_test.fn_test(2));

        ID DESCRIPTION
---------- --------------------------------------------------
         1 test
         2 test

2 rows selected.

SQL>

There does not seem anything too spectacular about that demo. We created some types, and a table function and everything works like it is supposed to. Let’s move on to 18c

18c with PL/SQL types



SQL> select banner from v$version;

BANNER
--------------------------------------------------------------------------------
Oracle Database 18c Enterprise Edition Release 18.0.0.0.0 - Production

1 row selected.

SQL> create table tb_test (id number, description varchar2 (50));

Table created.

SQL>
SQL> create or replace package pkg_test is
  2      cursor cur_test is
  3          select *
  4          from tb_test
  5          where 1=2;
  6      type typ_cur_test is table of cur_test%rowtype;
  7      function fn_test(p_rows in number) return typ_cur_test pipelined;
  8  end;
  9  /

Package created.

SQL> create or replace package body pkg_test is
  2      function fn_test(p_rows in number) return typ_cur_test pipelined as
  3      l_tab typ_cur_test := typ_cur_test();
  4      begin
  5          for i in 1..p_rows loop l_tab.extend;
  6              l_tab(i).Id := i;
  7              l_tab(i). Description := 'test';
  8              pipe row(l_tab(i));
  9          end loop;
 10      return ;
 11      end;
 12  end pkg_test;
 13  /

Package body created.

SQL>
SQL> select * from table(pkg_test.fn_test(2));

    ATTR_1 ATTR_2
---------- --------------------------------------------------
         1 test
         2 test

2 rows selected.

SQL>

It seems all fine at first glance, but look at those column names. Yup, we had a bug in 18c where we got a bit confused with column names in those table types. That’s a regression and so we rushed to fix it.  And where did we fix it first? Yup, in 19c.

Stick with 19c folks.

New Parallel Distribution Method For Direct Path Loads

Submitted by randolf.geist on Tue, 2020-02-25 22:12

Starting with version 12c Oracle obviously has introduced another parallel distribution method for direct path loads (applicable to INSERT APPEND and CTAS operations) when dealing with partitioned objects.

As you might already know, starting with version 11.2 Oracle supported a new variation of the PQ_DISTRIBUTE hint allowing more control how data gets distributed for the actual DML load step. In addition to the already documented methods (NONE, RANDOM / RANDOM_LOCAL, PARTITION) there is a new one EQUIPART which obviously only applies to scenarios where both, source and target table are equi partitioned.

In principle it looks like a "full-partition wise load", where the PX partition granule gets used as chunking method and each PX slave reads from the partition to process from source and writes into the corresponding partition of target. Therefore it doesn't require a redistribution of data and uses only a single PX slave set. Depending on the skew (partitions of different data volume) this might not be the best choice, but for massive data loads with evenly sized partitions it might give some advantage over the other distribution methods - the NONE distribution method being the closest, because it doesn't require additional redistribution either - but here all PX slaves read and write from any partition, so potentially there could be more contention.

Of course this new distributed method works only for the special case of equi partitioned source and target tables - and according to my tests only for the simple case of loading from the source table with no further operations like joins etc. involved.

A simple demonstration: 

#eeeeee; border: 1px dashed rgb(204 , 204 , 204); overflow: auto;">drop table t_part1 purge;
drop table t_part2 purge;

create table t_part1 (id, filler) partition by range (id) (
  partition n10000 values less than (10001),
  partition n20000 values less than (20001),
  partition n30000 values less than (30001),
  partition n40000 values less than (40001),
  partition n50000 values less than (50001),
  partition n60000 values less than (60001),
  partition n70000 values less than (70001),
  partition n80000 values less than (80001),
  partition n90000 values less than (90001),
  partition n100000 values less than (100001)
 )
as
select rownum as id, rpad('x', 200) as filler
from dual
connect by level <= 100000
;

create table t_part2 (id, filler) partition by range (id) (
  partition n10000 values less than (10001),
  partition n20000 values less than (20001),
  partition n30000 values less than (30001),
  partition n40000 values less than (40001),
  partition n50000 values less than (50001),
  partition n60000 values less than (60001),
  partition n70000 values less than (70001),
  partition n80000 values less than (80001),
  partition n90000 values less than (90001),
  partition n100000 values less than (100001)
 )
as
select rownum as id, rpad('x', 200) as filler
from dual
where 1 = 2
;

alter session enable parallel dml;

-- alter session set tracefile_identifier = equipart;

-- alter session set events 'trace [RDBMS.SQL_Optimizer.*] disk=highest';

--explain plan for
insert /*+ append parallel(2) pq_distribute(t_part2 equipart) */ into t_part2 select * from t_part1;

From 12.1.0.2 on the execution plan for the INSERT APPEND operation looks like this:

#eeeeee; border: 1px dashed rgb(204 , 204 , 204); overflow: auto;">--------------------------------------------------------------------------------------------------------------------------------------------
| Id  | Operation                          | Name     | Rows  | Bytes | Cost (%CPU)| Time     | Pstart| Pstop |    TQ  |IN-OUT| PQ Distrib |
--------------------------------------------------------------------------------------------------------------------------------------------
|   0 | INSERT STATEMENT                   |          |   100K|    19M|   446   (1)| 00:00:01 |       |       |        |      |            |
|   1 |  PX COORDINATOR                    |          |       |       |            |          |       |       |        |      |            |
|   2 |   PX SEND QC (RANDOM)              | :TQ10000 |   100K|    19M|   446   (1)| 00:00:01 |       |       |  Q1,00 | P->S | QC (RAND)  |
|   3 |    LOAD AS SELECT (EQUI-PARTITION) | T_PART2  |       |       |            |          |       |       |  Q1,00 | PCWP |            |
|   4 |     OPTIMIZER STATISTICS GATHERING |          |   100K|    19M|   446   (1)| 00:00:01 |       |       |  Q1,00 | PCWP |            |
|   5 |      PX PARTITION RANGE ALL        |          |   100K|    19M|   446   (1)| 00:00:01 |     1 |    10 |  Q1,00 | PCWC |            |
|   6 |       TABLE ACCESS FULL            | T_PART1  |   100K|    19M|   446   (1)| 00:00:01 |     1 |    10 |  Q1,00 | PCWP |            |
--------------------------------------------------------------------------------------------------------------------------------------------
 
Query Block Name / Object Alias (identified by operation id):
-------------------------------------------------------------
 
   1 - SEL$1
   6 - SEL$1 / T_PART1@SEL$1
 
Outline Data
-------------
 
  /*+
      BEGIN_OUTLINE_DATA
      FULL(@"SEL$1" "T_PART1"@"SEL$1")
      FULL(@"INS$1" "T_PART2"@"INS$1")
      PQ_DISTRIBUTE(@"INS$1" "T_PART2"@"INS$1" EQUIPART)
      OUTLINE_LEAF(@"INS$1")
      OUTLINE_LEAF(@"SEL$1")
      ALL_ROWS
      DB_VERSION('18.1.0')
      OPTIMIZER_FEATURES_ENABLE('18.1.0')
      IGNORE_OPTIM_EMBEDDED_HINTS
      END_OUTLINE_DATA
  */

Oracle doesn't always automatically choose this distribution method. If you want to enforce it (and it is legal) you can use the PQ_DISTRIBUTE(EQUIPART) hint as outlined.

count(*) – again

Submitted by Jonathan Lewis on Tue, 2020-02-25 13:24

I’ve just received an email asking (yet again) a question about counting the number of rows in a table.

We have a large table with a CLOB column, where the CLOB occupies 85% storage space.
when we use select count(*) from , the DBA says that you should not use count(*) as it uses all columns and as this table contains CLOB it results in high CPU usage, where as if we use count(rowid), this brings us faster and same result.

Well I’ve pointed out in the past, in fact more than once, that count(*), count(1), count(declared-non-null-column) will all do the same thing … execute as count(*); I’ve also listed a few quirky anomalies, also more than once. However, count(rowid) is a little different, it doesn’t get transformed to count(*) as we can see from two pieces of evidence:

Exhibit A: fragments from a 10053 (CBO) trace file

----- Current SQL Statement for this session (sql_id=d381q70418ugs) -----
select count(rowid) from emp1

... 

Final query after transformations:******* UNPARSED QUERY IS *******
SELECT COUNT("EMP1".ROWID) "COUNT(ROWID)" FROM "TEST_USER"."EMP1" "EMP1"

Unlike the various count() calls that are converted to count(*), counting rowids doesn’t seem to go througn the CNT transformation and the final state of the query still shows count(rowid) as the critical mechanism.

Exhibit B: variations in Column Projection Information

SQL> explain plan for select count(1) from emp1;

SQL> select * from table(dbms_xplan.display(null,null,'projection'));

PLAN_TABLE_OUTPUT
----------------------------------------------------------------------------------
Plan hash value: 2110459082

-----------------------------------------------------------------------
| Id  | Operation             | Name  | Rows  | Cost (%CPU)| Time     |
-----------------------------------------------------------------------
|   0 | SELECT STATEMENT      |       |     1 |     7  (15)| 00:00:01 |
|   1 |  SORT AGGREGATE       |       |     1 |            |          |
|   2 |   INDEX FAST FULL SCAN| E1_PK | 20000 |     7  (15)| 00:00:01 |
-----------------------------------------------------------------------

Column Projection Information (identified by operation id):
-----------------------------------------------------------
   1 - (#keys=0) COUNT(*)[22]

SQL> explain plan for select count(rowid) from emp1;

SQL> select * from table(dbms_xplan.display(null,null,'projection'));

PLAN_TABLE_OUTPUT
----------------------------------------------------------------------------------
Plan hash value: 2110459082

-------------------------------------------------------------------------------
| Id  | Operation             | Name  | Rows  | Bytes | Cost (%CPU)| Time     |
-------------------------------------------------------------------------------
|   0 | SELECT STATEMENT      |       |     1 |    12 |     7  (15)| 00:00:01 |
|   1 |  SORT AGGREGATE       |       |     1 |    12 |            |          |
|   2 |   INDEX FAST FULL SCAN| E1_PK | 20000 |   234K|     7  (15)| 00:00:01 |
-------------------------------------------------------------------------------

Column Projection Information (identified by operation id):
-----------------------------------------------------------
   1 - (#keys=0) COUNT(ROWID)[22]
   2 - ROWID[ROWID,10]

The count(1) query transforms to count(*) and we don’t see any column information begin generated at operation 2 and passing up to the parent operation. However with count(rowid) we see Oracle at operation 2 constructing actual rowids from block addresses and row directory entries and passing them up to the the parent operation.

The CPU it takes to construct and pass the rowids is probably insignificant compared to the CPU usage of accessing data blocks in the first place so I doubt if there would be much visible difference in clock-time between count(1) (or count(*)) and count(rowid), but technically it looks as if count(rowid) would actually be slower and more resource-intensive than anything that went through the count(*) transformation.

In passing – the execution plan that appears in our count(1) example also tells us that count(*) doesn’t “use all columns” – after all, there aren’t many tables where every column is in the primary key and emp1 is no exception to the general rule, and the plan is doing an index fast full scan of the primary key index.

 

The Goal and The DevOps Handbook (again) : My Reviews

Submitted by oraclebase on Tue, 2020-02-25 07:31

The Goal


In my recent review of The Unicorn Project I mentioned several times how much I loved the The Phoenix Project. Some of the feedback was that I should take a look at The Goal by Eliyahu M. Goldratt. After all, The Phoenix Project is an adaptation of The Goal.

I had a credit on Audible, which I’ll explain later, so I gave it a whirl.

I don’t know if it was the writing, or the voice acting, but The Goal has so much more personality than The Phoenix Project. I can barely believe I’m saying this after the amount of praise I’ve given to The Phoenix Project over the years.

The Goal is centred around manufacturing. It’s about the productivity issues in a failing factory. Despite being part of the tech industry, I feel the focus on manufacturing actually makes it easier to follow. There’s something about picturing physical products that make things seem clearer to me. This, and the fact many of these concepts were born out of manufacturing, are no doubt why The Phoenix Project makes repeated references to manufacturing.

I realise some people will prefer The Phoenix Project, because it more closely resembles what they see in their own failing technology organisations, but I think I’ve changed my opinion, and I think The Goal is now my favourite of the two.

The DevOps Handbook (Again)


Another thing I mentioned in my review of The Unicorn Project, was how much I disliked The DevOps Handbook. That seemed to surprise some people. So much so, I started to doubt myself. I couldn’t bring myself to read it again, so I decided to sign up for Audible and get it as my free book. That way I could listen to it when driving to visit my family at weekends.

I was not wrong about this book. In the comments for The Unicorn Project review, I answered a question about my attitude to The DevOps Handbook with the following answer.

“I found it really boring. I guess I was hoping it would be more of a reference or teaching aid. I found it really dry and quite uninformative for the most part. It mostly felt like a bunch of people “bigging themselves up”. Like, “When I worked at X, things were terrible, and I turned it around by myself and now things are fuckin’ A!” Similar to this book, I think the important messages could be put across in a tiny fraction of the space.”

There are undoubtedly valuable messages in The DevOps Handbook, but my gosh they make you work hard to find them. If they removed all the dick-waving, there wouldn’t be much left.

Another thing I found annoying about it, was it didn’t feel like it really related to my circumstances. I work with a load of third party products that I can’t just scrap, much as I’d like to. I found myself thinking these people were probably just cherry-picking the good stuff to talk about, and forgetting the stuff that was harder to solve. I’ve written about this type of thing in this post.

The messages in the “good DevOps books” are universal. They help you understand your own problems and think your own way through to solving them. I don’t think The DevOps Handbook helps very much at all.

So that’s twice I’ve tried, and twice I’ve come to the same conclusion. Stick with The Goal and The Phoenix Project. There are better things to do with your time and money than wasting it on The DevOps Handbook and The Unicorn Project. That’s just my opinion though!

Cheers

Tim…

PS. By the time I had waded through The DevOps Handbook a second time I had already got a new credit for Audible, which is why I tried The Goal on Audible, rather than reading it. I’m glad I did.

PPS. There are a few cringeworthy gender stereotypes in The Goal, but remember when this was written…

The Goal and The DevOps Handbook (again) : My Reviews was first posted on February 25, 2020 at 8:31 am.
©2012 "The ORACLE-BASE Blog". Use of this feed is for personal non-commercial use only. If you are not reading this article in your feed reader, then the site is guilty of copyright infringement.

Oracle 20c SQL Macros: a scalar example to join agility and performance

Submitted by Franck Pachot on Mon, 2020-02-24 19:52

By Franck Pachot

.
Let’s say you have a PEOPLE table with FIRST_NAME and LAST_NAME and you want, in many places of your application, to display the full name. Usually my name will be displayed as ‘Franck Pachot’ and I can simply add a virtual column to my table, or view, as: initcap(FIRST_NAME)||’ ‘||initcap(LAST_NAME). Those are simple SQL functions. No need for procedural code there, right? But, one day, the business will come with new requirements. In some countries (I’ve heard about Hungary but there are others), my name may be displayed with last name… first, like: ‘Pachot Franck’. And in some context, it may have a comma like: ‘Pachot, Franck’.

There comes a religious debate between Dev and Ops:

  • Developer: We need a function for that, so that the code can evolve without changing all SQL queries or views
  • DBA: That’s the worst you can do. Calling a function for each row is a context switch between SQL and PL/SQL engine. Not scalable.
  • Developer: Ok, let’s put all that business logic in the application so that we don’t have to argue with the DBA…
  • DBA: Oh, that’s even worse. The database cannot perform correctly with all those row-by-row calls!
  • Developer: No worry, we will put the database on Kubernetes, shard and distribute it, and scale as far as we need for acceptable throughput

And this is where we arrive in an unsustainable situation. Because we didn’t find a tradeoff between code maintainability and application performance, we get the worst from each of them: crazy resource usage for medium performance.

However, in Oracle 20c, we have a solution for that. Did you code some C programs where you replace functions by pre-processor macros? So that your code is readable and maintainable like when using modules and functions. But compiled as if those functions have been merged to the calling code at compile time? What was common in those 3rd generation languages is now possible in a 4th generation declarative language: Oracle SQL.

Let’s take an example. I’m building a PEOPLE table using the Linux /usr/share/dict of words:


create or replace directory "/usr/share/dict" as '/usr/share/dict';
create table people as
with w as (
select *
 from external((word varchar2(60))
 type oracle_loader default directory "/usr/share/dict" access parameters (nologfile) location('linux.words'))
) select upper(w1.word) first_name , upper(w2.word) last_name
from w w1,w w2 where w1.word like 'ora%' and w2.word like 'aut%'
order by ora_hash(w1.word||w2.word)
/

I have 100000 rows table here with first and last names.
Here is a sample:


SQL> select count(*) from people;

  COUNT(*)
----------
    110320

SQL> select * from people where rownum<=10;

FIRST_NAME                     LAST_NAME
------------------------------ ------------------------------
ORACULUM                       AUTOMAN
ORANGITE                       AUTOCALL
ORANGUTANG                     AUTHIGENOUS
ORAL                           AUTOPHOBIA
ORANGUTANG                     AUTOGENEAL
ORATORIAN                      AUTOCORRELATION
ORANGS                         AUTOGRAPHICAL
ORATORIES                      AUTOCALL
ORACULOUSLY                    AUTOPHOBY
ORATRICES                      AUTOCRATICAL

PL/SQL function

Here is my function that displays the full name, with the Hungarian specificity as an example but, as it is a function, it can evolve further:


create or replace function f_full_name(p_first_name varchar2,p_last_name varchar2)
return varchar2
as
 territory varchar2(64);
begin
 select value into territory from nls_session_parameters
 where parameter='NLS_TERRITORY';
 case (territory)
 when 'HUNGARY'then return initcap(p_last_name)||' '||initcap(p_first_name);
 else               return initcap(p_first_name)||' '||initcap(p_last_name);
 end case;
end;
/
show errors

The functional result depends on my session settings:


SQL> select f_full_name(p_first_name=>first_name,p_last_name=>last_name) from people
     where rownum<=10;

FIRST_NAME,P_LAST_NAME=>LAST_NAME)
------------------------------------------------------------------------------------------------
Oraculum Automan
Orangite Autocall
Orangutang Authigenous
Oral Autophobia
Orangutang Autogeneal
Oratorian Autocorrelation
Orangs Autographical
Oratories Autocall
Oraculously Autophoby
Oratrices Autocratical

10 rows selected.

But let’s run it on many rows, like using this function in the where clause, with autotrace:


SQL> set timing on autotrace on
select f_full_name(first_name,last_name) from people
where f_full_name(p_first_name=>first_name,p_last_name=>last_name) like 'Oracle Autonomous';

F_FULL_NAME(FIRST_NAME,LAST_NAME)
------------------------------------------------------------------------------------------------------
Oracle Autonomous

Elapsed: 00:00:03.47

Execution Plan
----------------------------------------------------------
Plan hash value: 2528372185

----------------------------------------------------------------------------
| Id  | Operation         | Name   | Rows  | Bytes | Cost (%CPU)| Time     |
----------------------------------------------------------------------------
|   0 | SELECT STATEMENT  |        |  1103 | 25369 |   129   (8)| 00:00:01 |
|*  1 |  TABLE ACCESS FULL| PEOPLE |  1103 | 25369 |   129   (8)| 00:00:01 |
----------------------------------------------------------------------------

Predicate Information (identified by operation id):
---------------------------------------------------

   1 - filter("F_FULL_NAME"("P_FIRST_NAME"=>"FIRST_NAME","P_LAST_NAME"=>
              "LAST_NAME")='Oracle Autonomous')


Statistics
----------------------------------------------------------
     110361  recursive calls
          0  db block gets
        426  consistent gets
          0  physical reads
          0  redo size
        608  bytes sent via SQL*Net to client
        506  bytes received via SQL*Net from client
          2  SQL*Net roundtrips to/from client
          0  sorts (memory)
          0  sorts (disk)
          1  rows processed

100000 recursive calls. That is bad and not scalable. The time spent in context switches from the SQL to the PL/SQL engine is a waste of CPU cycles.

Note that this is difficult to improve because we cannot create on index for that predicate:


SQL> create index people_full_name on people(f_full_name(first_name,last_name));
create index people_full_name on people(f_full_name(first_name,last_name))
                                        *
ERROR at line 1:
ORA-30553: The function is not deterministic

Yes, this function cannot be deterministic because it depends on many other parameters (like the territory in this example, in order to check if I am in Hungary)

Update 25-FEB-2020

If you have read this post yesterday, pleased note that I’ve updated it. I initially didn’t add the territory parameter, thinking that changing NLS_TERRITORY would re-parse the query but it seems that cursors are shared across different territories. Anyway, the documentation says:
Although the DETERMINISTIC property cannot be specified, a SQL macro is always implicitly deterministic.
So, better not relying on child cursor sharing. Thanks to Stew Ashtom for the heads up on that:

Fake Baselines – 2

Submitted by Jonathan Lewis on Mon, 2020-02-24 15:38

Many years ago (2011) I wrote a note describing how you could attach the Outline Information from one query to the SQL_ID of another query using the official Oracle mechanism of calling dbms_spm.load_plans_from_cursor_cache(). Shortly after publishing that note I drafted a follow-up note with an example demonstrating that even when the alternative outline was technically relevant the optimizer might still fail to use the SQL Plan Baseline. Unfortunately I didn’t quite finish the draft – until today.

The example I started with nearly 10 years ago behaved correctly against 11.1.0.7, but failed to reproduce the plan when I tested it against 11.2.0.3, and it still fails against 19.3.0.0. Here’s the test data and the query we’re going to attempt to manipulate:


rem
rem     Script:         fake_sql_baseline_4.sql
rem     Author:         Jonathan Lewis
rem     Dated:          Oct 2010
rem

create table emp1 (
        dept_no         number /* not null */,
        sal             number,
        emp_no          number,
        padding         varchar2(200),
        constraint e1_pk primary key(emp_no)
)
;

create table emp2 (
        dept_no         number /* not null */,
        sal             number,
        emp_no          number,
        padding         varchar2(200),
        constraint e2_pk primary key(emp_no)
)
;

insert into emp1
select
        mod(rownum,6),
        rownum,
        rownum,
        rpad('x',200)
from
        all_objects
where
        rownum <= 20000 -- > comment to avoid wordpress format issue
;

insert into emp2
select
        mod(rownum,6),
        rownum,
        rownum,
        rpad('x',200)
from
        all_objects
where
        rownum <= 20000 -- > comment to avoid wordpress format issue
;

begin
        dbms_stats.gather_table_stats(
                ownname                 => user,
                tabname                 => 'EMP1',
                cascade                 => true,
                method_opt              =>'for all columns size 1'
        );

        dbms_stats.gather_table_stats(
                ownname                 => user,
                tabname                 => 'EMP2',
                cascade                 => true,
                method_opt              =>'for all columns size 1'
        );
end;
/

select
        /*+ target_query */
        count(*)
from
        emp1
where
        emp1.dept_no not in (
                select  dept_no
                from    emp2
        )
;

select * from table(dbms_xplan.display_cursor(null, null, 'outline'));

I haven’t included the code I run on my testbed to delete all existing SQL Plan Baselines before running this test, I’ll post that at the end of the article.

The query is very simple and will, of course, return no rows since emp1 and emp2 are identical and we’re looking for departments in emp1 that don’t appear in emp2. The “obvious” plan for the optimizer is to unnest the subquery into a distinct (i.e. aggregate) inline view then apply an anti-join. It’s possible that the optimizer will also decide to do complex view merging and postpone the aggregation. Here’s the execution plan from 19.3:


----------------------------------------------------------------------------
| Id  | Operation           | Name | Rows  | Bytes | Cost (%CPU)| Time     |
----------------------------------------------------------------------------
|   0 | SELECT STATEMENT    |      |       |       |   168 (100)|          |
|   1 |  SORT AGGREGATE     |      |     1 |     6 |            |          |
|*  2 |   HASH JOIN ANTI NA |      |  3333 | 19998 |   168   (5)| 00:00:01 |
|   3 |    TABLE ACCESS FULL| EMP1 | 20000 | 60000 |    83   (4)| 00:00:01 |
|   4 |    TABLE ACCESS FULL| EMP2 | 20000 | 60000 |    83   (4)| 00:00:01 |
----------------------------------------------------------------------------

Predicate Information (identified by operation id):
---------------------------------------------------
   2 - access("EMP1"."DEPT_NO"="DEPT_NO")

Hint Report (identified by operation id / Query Block Name / Object Alias):

Total hints for statement: 1 (E - Syntax error (1))
---------------------------------------------------------------------------
   0 -  SEL$1
         E -  target_query

As expected the subquery unnested, we have the anti-join (in this case, since dept_no can be null, it’s a “Null-Aware” antijoin); and the optimizer has, indeed, decided to do the join before the aggregation.

Assume, now, that for reasons known only to me a merge (anti-)join would be more effective than a hash join. To get the optimizer to do this I’m going to capture the query and connect it to a plan that uses a merge join. There are several minor variations on how we could do this, but I’m going to follow the steps I took in 2011 – but cut out a couple of the steps where I loaded redundant baselines into the SMB (SQLPlan Management Base). As a starting point I’ll just record the sql_id and plan_hash_value for the query (and the child_number just in case I want to use dbms_xplan.display_cursor() to report the in-memory execution plan):

column  sql_id                  new_value       m_sql_id_1
column  plan_hash_value         new_value       m_plan_hash_value_1
column  child_number            new_value       m_child_number_1

select
        sql_id, plan_hash_value, child_number
from
        v$sql
where
        sql_text like '%target_query%'
and     sql_text not like '%v$sql%'
and     rownum = 1
;

Now I’ll hack the query to produce a plan that does the merge join. An easy first step is to look at the current outline and take advantage of the hints there. You’ll notice I included the ‘outline’ format in my call to dbms_xplan.display_cursor() above, even though I didn’t show you that part of the output – here it is now:

Outline Data
-------------
  /*+
      BEGIN_OUTLINE_DATA
      IGNORE_OPTIM_EMBEDDED_HINTS
      OPTIMIZER_FEATURES_ENABLE('19.1.0')
      DB_VERSION('19.1.0')
      ALL_ROWS
      OUTLINE_LEAF(@"SEL$5DA710D3")
      UNNEST(@"SEL$2")
      OUTLINE(@"SEL$1")
      OUTLINE(@"SEL$2")
      FULL(@"SEL$5DA710D3" "EMP1"@"SEL$1")
      FULL(@"SEL$5DA710D3" "EMP2"@"SEL$2")
      LEADING(@"SEL$5DA710D3" "EMP1"@"SEL$1" "EMP2"@"SEL$2")
      USE_HASH(@"SEL$5DA710D3" "EMP2"@"SEL$2")
      END_OUTLINE_DATA
  */

So I’m going to take the useful-looking hints, get rid of the use_hash() hint and, for good measure, turn it into a no_use_hash() hint. Here’s the resulting query, with its execution plan:

select
        /*+
                unnest(@sel$2)
                leading(@sel$5da710d3 emp1@sel$1 emp2@sel$2)
                no_use_hash(@sel$5da710d3 emp2@sel$2)
                full(@sel$5da710d3 emp2@sel$2)
                full(@sel$5da710d3 emp1@sel$1)
                alternate_query
        */
        count(*)
from
        emp1
where
        emp1.dept_no not in (
                select  dept_no
                from    emp2
        )
;

-----------------------------------------------------------------------------
| Id  | Operation            | Name | Rows  | Bytes | Cost (%CPU)| Time     |
-----------------------------------------------------------------------------
|   0 | SELECT STATEMENT     |      |       |       |   178 (100)|          |
|   1 |  SORT AGGREGATE      |      |     1 |     6 |            |          |
|   2 |   MERGE JOIN ANTI NA |      |  3333 | 19998 |   178  (11)| 00:00:01 |
|   3 |    SORT JOIN         |      | 20000 | 60000 |    89  (11)| 00:00:01 |
|   4 |     TABLE ACCESS FULL| EMP1 | 20000 | 60000 |    83   (4)| 00:00:01 |
|*  5 |    SORT UNIQUE       |      | 20000 | 60000 |    89  (11)| 00:00:01 |
|   6 |     TABLE ACCESS FULL| EMP2 | 20000 | 60000 |    83   (4)| 00:00:01 |
-----------------------------------------------------------------------------

Predicate Information (identified by operation id):
---------------------------------------------------
   5 - access("EMP1"."DEPT_NO"="DEPT_NO")
       filter("EMP1"."DEPT_NO"="DEPT_NO")

Outline Data
-------------
  /*+
      BEGIN_OUTLINE_DATA
      IGNORE_OPTIM_EMBEDDED_HINTS
      OPTIMIZER_FEATURES_ENABLE('19.1.0')
      DB_VERSION('19.1.0')
      ALL_ROWS
      OUTLINE_LEAF(@"SEL$5DA710D3")
      UNNEST(@"SEL$2")
      OUTLINE(@"SEL$1")
      OUTLINE(@"SEL$2")
      FULL(@"SEL$5DA710D3" "EMP1"@"SEL$1")
      FULL(@"SEL$5DA710D3" "EMP2"@"SEL$2")
      LEADING(@"SEL$5DA710D3" "EMP1"@"SEL$1" "EMP2"@"SEL$2")
      USE_MERGE(@"SEL$5DA710D3" "EMP2"@"SEL$2")
      END_OUTLINE_DATA
  */

Hint Report (identified by operation id / Query Block Name / Object Alias):
Total hints for statement: 1 (E - Syntax error (1))
---------------------------------------------------------------------------
   0 -  SEL$1
         E -  alternate_query

Note that I’ve included the text “alternative_query” at the end of the hint list as something to use when I’m searaching v$sql. Note also, that the “no_use_hash()” hint has disappeared and been replaced by “use_merge()” hint.

The plan tells us that the optimizer is happy to use a “merge join anti NA”, so we can load this plan’s outline into the SMB by combining the sql_id and plan_hash_value for this query with (for older versions of Oracle, though you can now use the sql_id in recent versions) the text of the previous query so that we can store the old text with the new plan.


column  sql_id                  new_value       m_sql_id_2
column  plan_hash_value         new_value       m_plan_hash_value_2
column  child_number            new_value       m_child_number_2

select
        sql_id, plan_hash_value, child_number
from
        v$sql
where
        sql_text like '%alternate_query%'
and     sql_text not like '%v$sql%'
and     rownum = 1
;

declare
        m_clob  clob;
begin
        select
                sql_fulltext
        into
                m_clob
        from
                v$sql
        where
                sql_id = '&m_sql_id_1'
        and     child_number = &m_child_number_1
        ;

        dbms_output.put_line(m_clob);

        dbms_output.put_line(
                'Number of plans loaded: ' ||
                dbms_spm.load_plans_from_cursor_cache(
                        sql_id                  => '&m_sql_id_2',
                        plan_hash_value         => &m_plan_hash_value_2,
                        sql_text                => m_clob,
                        fixed                   => 'YES',
                        enabled                 => 'YES'
                )
        );

end;
/

At this point we have one SQL Plan Baseline in the SMB, and it says the old query should execute usng the new plan. So let’s give it a go:

set serveroutput off
alter system flush shared_pool;

alter session set events '10053 trace name context forever';

select
        /*+ target_query */
        count(*)
from
        emp1
where
        emp1.dept_no not in (
                select  dept_no
                from    emp2
        )
/

alter session set events '10053 trace name context off';

select * from table(dbms_xplan.display_cursor(null, null, 'alias outline'));

I’ve enabled the 10053 (optimizer) trace so that I can report a critical few lines from it later on. Here’s the execution plan, omitting the outline but including the alias information.

----------------------------------------------------------------------------
| Id  | Operation           | Name | Rows  | Bytes | Cost (%CPU)| Time     |
----------------------------------------------------------------------------
|   0 | SELECT STATEMENT    |      |       |       |   168 (100)|          |
|   1 |  SORT AGGREGATE     |      |     1 |     6 |            |          |
|*  2 |   HASH JOIN ANTI NA |      |  3333 | 19998 |   168   (5)| 00:00:01 |
|   3 |    TABLE ACCESS FULL| EMP1 | 20000 | 60000 |    83   (4)| 00:00:01 |
|   4 |    TABLE ACCESS FULL| EMP2 | 20000 | 60000 |    83   (4)| 00:00:01 |
----------------------------------------------------------------------------

Query Block Name / Object Alias (identified by operation id):
-------------------------------------------------------------
   1 - SEL$5DA710D3
   3 - SEL$5DA710D3 / EMP1@SEL$1
   4 - SEL$5DA710D3 / EMP2@SEL$2

Predicate Information (identified by operation id):
---------------------------------------------------
   2 - access("EMP1"."DEPT_NO"="DEPT_NO")

Hint Report (identified by operation id / Query Block Name / Object Alias):
Total hints for statement: 1 (E - Syntax error (1))
---------------------------------------------------------------------------
   0 -  SEL$1
         E -  target_query

Note
-----
   - Failed to use SQL plan baseline for this statement

We haven’t used the SQL Plan Baseline – and in 19.3 we even have a note that the optimizer knew there was at least one baseline available that it failed to use! So what went wrong?

I have two diagnostics – first is the content of the baseline itself (warning – the SQL below will report ALL currently saved SQL Plan Baselines); I’ve just made sure that I have only one to report:

set linesize 90

select
        pln.*
from
        (select sql_handle, plan_name
         from   dba_sql_plan_baselines spb
         order by
                sql_handle, plan_name
        ) spb,
        table(dbms_xplan.display_sql_plan_baseline(spb.sql_handle, spb.plan_name)) pln
;


PLAN_TABLE_OUTPUT
------------------------------------------------------------------------------------------
SQL handle: SQL_ce3099e9e3bdaf2f
SQL text: select         /*+ target_query */         count(*) from         emp1
          where         emp1.dept_no not in (                 select  dept_no
                        from    emp2         )
--------------------------------------------------------------------------------

--------------------------------------------------------------------------------
Plan name: SQL_PLAN_cwc4tx7jvvbtg02bb0c12         Plan id: 45812754
Enabled: YES     Fixed: YES     Accepted: YES     Origin: MANUAL-LOAD-FROM-CURSOR-CACHE
Plan rows: From dictionary
--------------------------------------------------------------------------------

Plan hash value: 1517539632

-----------------------------------------------------------------------------
| Id  | Operation            | Name | Rows  | Bytes | Cost (%CPU)| Time     |
-----------------------------------------------------------------------------
|   0 | SELECT STATEMENT     |      |       |       |   178 (100)|          |
|   1 |  SORT AGGREGATE      |      |     1 |     6 |            |          |
|   2 |   MERGE JOIN ANTI NA |      |  3333 | 19998 |   178  (11)| 00:00:01 |
|   3 |    SORT JOIN         |      | 20000 | 60000 |    89  (11)| 00:00:01 |
|   4 |     TABLE ACCESS FULL| EMP1 | 20000 | 60000 |    83   (4)| 00:00:01 |
|*  5 |    SORT UNIQUE       |      | 20000 | 60000 |    89  (11)| 00:00:01 |
|   6 |     TABLE ACCESS FULL| EMP2 | 20000 | 60000 |    83   (4)| 00:00:01 |
-----------------------------------------------------------------------------

Predicate Information (identified by operation id):
---------------------------------------------------
   5 - access("EMP1"."DEPT_NO"="DEPT_NO")
       filter("EMP1"."DEPT_NO"="DEPT_NO")

Hint Report (identified by operation id / Query Block Name / Object Alias):
Total hints for statement: 1 (E - Syntax error (1))
---------------------------------------------------------------------------
   0 -  SEL$1
         E -  alternate_query

We have an SQL Plan baseline that is accepted, enabled, and fixed; and it’s supposed to produce a “merge join anti NA”, and it clearly “belongs” to our query. So it should have been used.

Then we have the 10053 trace file, in which we find the following:


SPM: planId in plan baseline = 45812754, planId of reproduced plan = 1410137244
------- START SPM Plan Dump -------
SPM: failed to reproduce the plan using the following info:
  parse_schema name        : TEST_USER
  plan_baseline signature  : 14857544400522555183
  plan_baseline plan_id    : 45812754
  plan_baseline hintset    :
    hint num  1 len 27 text: IGNORE_OPTIM_EMBEDDED_HINTS
    hint num  2 len 35 text: OPTIMIZER_FEATURES_ENABLE('19.1.0')
    hint num  3 len 20 text: DB_VERSION('19.1.0')
    hint num  4 len  8 text: ALL_ROWS
    hint num  5 len 29 text: OUTLINE_LEAF(@"SEL$5DA710D3")
    hint num  6 len 16 text: UNNEST(@"SEL$2")
    hint num  7 len 17 text: OUTLINE(@"SEL$1")
    hint num  8 len 17 text: OUTLINE(@"SEL$2")
    hint num  9 len 36 text: FULL(@"SEL$5DA710D3" "EMP1"@"SEL$1")
    hint num 10 len 36 text: FULL(@"SEL$5DA710D3" "EMP2"@"SEL$2")
    hint num 11 len 54 text: LEADING(@"SEL$5DA710D3" "EMP1"@"SEL$1" "EMP2"@"SEL$2")
    hint num 12 len 41 text: USE_MERGE(@"SEL$5DA710D3" "EMP2"@"SEL$2")

During optimization the optimizer has found that SQL Plan Baseline. We can see that the hints in the baseline are exactly the hints from the plan that we wanted – but the optimizer says it can’t reproduce the plan we wanted. In fact if you try adding exactly these hints to the query itself you’ll still find that the merge join won’t appear and Oracle will use a hash join.

Conclusion

This is just a simple example of how the optimizer may be able to produce a plan if hinted in one way, but the outline consists of a different set of hints that won’t reproduce the plan they describe. My no_use_hash() has turned into a use_merge() but that hint fails to reproduce the merge join in circumstances that makes me think there’s a bug in the optimizer.

If you happen to be unlucky you may find that the plan you really need to see can’t be forced through a SQL Plan Baseline. In this example it may be necessary to use the SQL Patch mechanism to include the no_use_hash() hint in a set of hints that I associate with the query.