BIF HealthCheck Licensed Freeware for DB2 11

Detect static and dynamic SQL and match to the relevant collection, packages,…

BIF HealthCheck overview (Built-in Function Checker for DB2 z/OS)

BIF HealthCheck reports the following BIF incompatibilities in DB2 11

  • Execution of the DB2 9 for z/OS version of SYSIBM.CHAR(DECIMAL-EXPR)
  • Execution of the DB2 9 for z/OS version of SYSIBM.VARCHAR(DECIMAL-EXPR), CAST (DECIMAL AS VARCHAR), OR CAST (DECIMAL AS CHAR)

  • Use of an unsupported character string representation of a TIMESTAMP
  • Use of the DB2 10 for z/OS default SQL path instead of the V11 path, which has more implicit Schemas

  • Execution of a non-Java client that called a Stored Procedure (SP) that is on the DB2 for z/OS Data Server, while subsystem parameter DDF_COMPATIBILITY was set to SP_PARMS_NJV (the Data Server returned output argument values whose data types matched the data types of the call statement arguments).
  • Execution of an insert statement that inserts into an XML column without the XMLDOCUMENT function, which generates SQLCODE -20345 on a DB2 release prior to V11, but does not generate an error starting in V11

  • V10 XPATH evaluation behavior was in effect, which resulted in an error (e.g. a data type conversion error occurred for a predicate that would otherwise be evaluated to false.). Starting in V11, such errors might be suppressed

  • Execution of a SQL statement by a client non-Java, or Java application that included an unsupported conversion from a string type to a numeric type, or from a numeric type to a string type while the DB2 z/OS Data Server environment was one of the following (the Data Server issues SQLCODE -301)

• The Data Server was in version 11 New-Function Mode (NFM)
• APPLICATION COMPATIBILITY was set to V10R1
• Implicit casting was disabled because subsystem parameter DDF_COMPATIBILITY was set to SP_PARMS_NJV, or DISABLE_IMPCAST_NJV

BIF incompatibilities in DB2 10

 

More about BIF

BIF-Usage

Presentation

BIF CompatibilityDB2 10 compatibility mode
Changes to the STRING formating of decimal data within the CHAR and VARCHAR built-in function and to the CAST specification with CHAR and VARCHAR result types as well as  UNSUPPORTED TIMESTAMP STRINGs.
White PaperFinding BIFsAnd How to Lead a Problem-Free Life With Them in the Future
Navigating the Challenges of moving to a new DB2 Release
Newsletter2015-01 – BIFCIDS – Where’s the BIF?How will you deal with loop-hole usage in production code?
VideoBIF Usage(11min.) Trap  and correct the BIFs that will cause belly-ache one day soon
“Give and Take”
Program” page
 Give and Take
Program
We have “GIVEn” various free-of-charge Use Cases from SQL Workload Expert for DB2 z/OS like
1  Index Maintenance Costs
2  EXPLAIN Suppression
3  BIF Usage
4  BIF Healthcheck (Freeware) – This last one is still available
We TAKE the anonymized results for research
and will communicate with the local User Groups for discussions
 User StatementsBIF Usage:

“Give and Take
Program 3”

 Customer CommentsRead the Customer Comments across the Industry

  • Health Care
  • Insurance
  • Banking
  • Car Manufacturing

BIF HealthCheck licensed Freeware for DB2 10

Detect static and dynamic SQL and match to the relevant collection, packages,…

BIF HealthCheck overvew (Built-in Function Checker for DB2 z/OS)

BIF HealthCheck reports the following BIF incompatibilities in DB2 10

  • Execution of the DB2 9 for z/OS version of SYSIBM.CHAR(DECIMAL-EXPR)
  • Execution of the DB2 9 for z/OS version of SYSIBM.VARCHAR(DECIMAL-EXPR), CAST (DECIMAL AS VARCHAR), OR CAST (DECIMAL AS CHAR)

  • Use of an unsupported character string representation of a TIMESTAMP
  • Use of a USER-DEFINED FUNCTION (UDF) that has the unqualified name ARRAY_EXISTS
  • Use of a USER-DEFINED FUNCTION (UDF) that has the unqualified name CUBE
  • Use of a USER-DEFINED FUNCTION (UDF) that has the unqualified name ROLLUP

  • Execution of a non-Java client that called a Stored Procedure (SP) that is on the DB2 for z/OS Data Server, while subsystem parameter DDF_COMPATIBILITY was set to SP_PARMS_NJV (the Data Server returned output argument values whose data types matched the data types of the call statement arguments).

  • Execution of a SQL statement by a client non-Java application that included an unsupported conversion from a string type to a numeric type, while the DB2 z/OS Data Server environment was one of the following (the Data Server issues SQLCODE -301)
    • In version 10 Conversion Mode (CM)
    • In version 10 New-Function Mode (NFM) and implicit casting was disabled because subsystem parameter DDF_COMPATIBILITY was set to SP_PARMS_NJV, or DISABLE_IMPCAST_NJ

 

BIF incompatibilities in DB2 11

 

More about BIF

BIF-Usage

Presentation

BIF CompatibilityDB2 10 compatibility mode
Changes to the STRING formating of decimal data within the CHAR and VARCHAR built-in function and to the CAST specification with CHAR and VARCHAR result types as well as  UNSUPPORTED TIMESTAMP STRINGs.
White PaperFinding BIFsAnd How to Lead a Problem-Free Life With Them in the Future
Navigating the Challenges of moving to a new DB2 Release
Newsletter2015-01 – BIFCIDS – Where’s the BIF?How will you deal with loop-hole usage in production code?
VideoBIF Usage(11min.) Trap  and correct the BIFs that will cause belly-ache one day soon
“Give and Take”
Program” page
 Give and Take
Program
We have “GIVEn” various free-of-charge Use Cases from SQL Workload Expert for DB2 z/OS like
1  Index Maintenance Costs
2  EXPLAIN Suppression
3  BIF Usage 
BIF HealthCheck – This last one is still available
We TAKE the anonymized results for research
and will communicate with the local User Groups for discussions
 User StatementsBIF Usage:

“Give and Take
Program 3”

 Customer CommentsRead the Customer Comments across the Industry

  • Health Care
  • Insurance
  • Banking
  • Car Manufacturing

2015-06 SOUNDEX and other “cool” features – Part four: DB2 10-DB2 11

 

Update for DB2 10 and all new for DB2 11

 

This newsletter completes my walk through of new Scalar functions that I began a few years ago. I will start today with two new ones that were introduced by APAR PM56631 in May 2012 to DB2 10. PACK (a Scalar Function), and its opposite number UNPACK (a Row Function).

 

New Scalar functions in DB2 10:

Some PACK examples

PACK basically “packs” together a list of columns, or literals, into one variable length binary string in UNICODE format. Here’s some real PACK examples—note that SYDUMMYU is used!

SELECT PACK(CCSID 1208, 'ALICE', DATE('2014-07-22') , DOUBLE(8.6))      
FROM SYSIBM.SYSDUMMYU;                                                  
---------+---------+---------+---------+---------+---------+---------+--
00000301C0018001E004B80005414C494345201407224021333333333333            
DSNE610I NUMBER OF ROWS DISPLAYED IS 1
SELECT PACK(CCSID 1208, 'ROY', BIGINT(123456789) ,                      
TIMESTAMP('2014-07-22-07.43.23.123456'))                                
FROM SYSIBM.SYSDUMMYU;                                                  
---------+---------+---------+---------+---------+---------+---------+--
00000301C001EC018804B80003524F5900000000075BCD15000620140722074323123456
DSNE610I NUMBER OF ROWS DISPLAYED IS 1
SELECT PACK(CCSID 1208,                                                 
TIMESTAMP('2014-07-22-07.55.23.123456'))                                
FROM SYSIBM.SYSDUMMYU;                                                  
---------+---------+---------+---------+---------+---------+---------+--
0000010188000620140722075523123456                                      
DSNE610I NUMBER OF ROWS DISPLAYED IS 1

You can see the format that it creates is actually pretty standard and can have uses in normal processing!

Using the second example above, we can see what is in the output:

The VARBIN string starts with a control flag byte which we can happily ignore

00

Then comes how many elements are in the data

0003

Then comes a set of “number of element” SQLTYPES. If any are odd numbered then the data value is *not* in the string as it is in fact NULL

01C0   Varying Character data 448 in decimal
01EC   BIGINT data 492 in decimal
0188   TIMESTAMP data 392 in decimal

 

The first data element CHAR containing “ROY” looks like

04B8   CCSID of String 1208 in decimal
0003   Length of string 
524F59 Data in UNICODE

 

The second data element BIGINT containing 123456789 looks like

00000000075BCD15      BIGINT data big endian always!

The third data element TIMESTAMP containing ‘2014-07-22-07.43.23.123456’ looks like

0006                  TIMESTAMP precision
20140722074323123456  TIMESTAMP data

UNPACK statements

Now, these VARBIN strings can get very long indeed, but what can you do with all of the data? Well, obviously UNPACK springs to mind… Here’s the above data again, but getting input to an UNPACK statement you have to create a FUNCTION first… something like this:

--#SET TERMINATOR $                                        
CREATE FUNCTION PACKUDF ()                                 
        RETURNS VARBINARY(128)                             
        VERSION V1                                         
        LANGUAGE SQL                                       
        DETERMINISTIC                                      
        NO EXTERNAL ACTION                                 
        CONTAINS SQL                                       
        CALLED ON NULL INPUT                               
        STATIC DISPATCH                                    
        NOT SECURED                                        
        DISABLE DEBUG MODE                                 
        BEGIN                                              
        DECLARE PACKSTR VARBINARY(128);                    
        SET PACKSTR =                                      
               PACK(CCSID 1208                             
                   ,VARCHAR('ROY' , 40)                    
                   ,BIGINT(123456789)                      
                   ,TIMESTAMP('2014-07-22-07.43.23.123456')
                   );                                      
        RETURN PACKSTR;                                    
        END                                                
$   

This just does what the second example did, but buried in a Scalar SQL Function. This can then easily be called by just doing this:

SELECT UNPACK(PACKUDF()).*                                                           
          AS (USER_NAME    VARCHAR(40) CCSID UNICODE                    
             ,LARGE_NUMBER BIGINT                                       
             ,WHEN_USED    TIMESTAMP)                                   
FROM SYSIBM.SYSDUMMY1 ;                                                 
---------+---------+---------+-..--------+---------+---------+---------+---------+---
USER_NAME                      ..            LARGE_NUMBER  WHEN_USED                 
---------+---------+---------+-..--------+---------+---------+---------+---------+---
ROY                                             123456789  2014-07-22-07.43.23.123456
DSNE610I NUMBER OF ROWS DISPLAYED IS 1   
            

I deleted some white space (..) above just to get it all to fit on the page, by the way! Now quite *what* you would do with PACK and UNPACK I’ll leave up to you!!!

 

On now to DB2 11: Aggregate Functions and 11 new scalar functions for new ARRAY data type

Here we got three new Aggregate Functions and 11 new Scalar Functions. Most of these are for the new ARRAY data type that was introduced in DB2 11. First, here’s how you can create ARRAYs, so that you can understand a bit more about the Functions that follow:

CREATE TYPE BOXWELL.ROYARRAY  AS INTEGER  ARRAY ??(??) ;     
CREATE TYPE BOXWELL.ROYARRAY4 AS CHAR(16) ARRAY ??( 32 ??) ; 
CREATE TYPE BOXWELL.ROYARRAY5 AS CHAR(16)                    
   ARRAY ??( VARCHAR(8) CCSID UNICODE FOR MIXED DATA ??) ;

Note that I use trigraphs ( ??( = [ and ??) = ] ), as I *hate* the square brackets! (I would *love* to meet that developer in a dark alley one night…I know, I know, it is like that in the “other” SQL world but it doesn’t mean I have to use them!).

 

Now arrays are pretty cool for passing data back from SQL Scalar Functions, or for Parameters of SQL Scalar Functions and Native SQL Procedures, as it simplifies the handling of lots of same type parameters. This is really good for all the JAVA programmers out there who use array types all the time!

In fact, all of the ARRAY stuff is *only* allowed within the confines of Stored Procedures and SQL PL.

What also arrived in DB2 11 is the ability to “unravel the array” using the new “collection-derived-table” syntax—otherwise known as UNNEST—and here are the two examples from the doc:

 

Example 1: Suppose that PHONENUMBERS is a user-defined array type that is defined as an ordinary array.

RECENT_CALLS is an array variable of the PHONENUMBERS type. RECENT_CALLS contains the following phone numbers:

9055553907
4165554213
4085553678
The following SELECT statement uses UNNEST to retrieve the list of phone numbers from the Array:

SELECT T.ID, T.NUM FROM UNNEST(RECENT_CALLS) WITH ORDINALITY AS T(NUM, ID);

ID NUM
1 9055553907
2 4165554213
3 4085553678

SET PHONELIST[’Home’] = ’4443051234’;
SET PHONELIST[’Work’] = ’4443052345’;
SET PHONELIST[’Cell’] = ’4447893456’;

The following SELECT statement is executed:

SELECT T.ID, T.PHONE FROM UNNEST(PHONELIST) AS T(ID, PHONE);

The result table looks like this, although the order of rows might differ:

ID PHONE
Cell 4447893456
Home 4443051234
Work 4443052345

 

The Array Aggregate Function, ARRAY_AGG, and all of the Scalar Functions:

ARRAY_DELETE,
ARRAY_FIRST,
ARRAY_LAST,
ARRAY_NEXT,
ARRAY_PRIOR,
CARDINALITY,
MAX_CARDINALITY,
and TRIM_ARRAY,
are all available to use but only within the confines of SQL PL.

 

CHAR9 and VARCHAR9

Also new in DB2 11 are CHAR9 and VARCHAR9, which are the good old functions from DB2 9 but now keeping the way they used to work forever—I hope they will not actually be used!

XSLTRANSFORM was also delivered to do XML transformations, but I have never actually tried it. You must note this bit of text:

 

This user-defined function requires IBM SDK for z/OS, Java Technology Edition Version 6.
This user-defined function uses the XSLT support that is provided by the W3C XSL Transformations V1.0 Recommendation.

 

GROUPING & MEDIAN

Then we got two new Aggregate Functions. The first is GROUPING—used in the OLAP extensions for doing automatic sub- and grand totaling, and then MEDIAN—which *only* works if you have the IDAA switched on!

So, lots of interesting stuff here. You may want to go back to the 3 newsletters  from a few years ago (2012) to recap all of these “cool” features. That way you’ll have plenty to read if you get bored on holiday!

 

Feel free to send me your comments and ask questions!

Link back to general newsletter page