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I am having some trouble with a procedure; when run for “big” sets (800+ parents, 1300+ children), it is very slow (30 - 60 secs).

Basic idea is to fetch all parent records (and their respective children) fitting a certain search criteria, along with 3 additional pieces of information that will have to be computed.

My approach to the problem was

  1. to create a custom record type with additional fields for the computed values.
  2. A reference to this record type can then be passed around to each function, controlled by a main processing function.
  3. As a value is computed for each parent record, tack it onto the record.

Each procedure GET_PARENT_RECORDS and GET_CHILD_RECORDS are called once per search, and each computing functions are run N times (where N is the number of parent and/or child records).

Question 1: Is this the right approach? (weakly typed cursors, pipelined functions) If not, then how should I have approached the problem, assuming I can have a re-do?

Question 2: Barring a complete rewrite, is there anything obvious that can be improved in the code provided?

Question 3: Or could something else be wrong, as I notice that the same slow query returned in 20 secs when I've run the procedures a few times?

Package definition

create or replace

  Type parentCursor IS REF CURSOR;
  Type childCursor IS REF CURSOR;

  Type ParentRecordType IS RECORD (

  --associative array
  TYPE ParentArray IS TABLE OF ParentRecordType;

  FUNCTION processParents(
      p IN THIS_PKG. parentCursor
  )  RETURN ParentArray

  FUNCTION countSomething(some params…)

  FUNCTION checkCondX (SomeParent IN ParentRecordType) 

  FUNCTION checkCondY (SomeParent IN ParentRecordType)

  PROCEDURE GET_PARENT_RECORDS( other_parameters, Parents OUT THIS_PKG.parentCursor);

  PROCEDURE GET_CHILD_RECORDS( other_parameters, Children OUT THIS_PKG.childCursor);


Package Body

-- omitted

FUNCTION processParents(
      p IN THIS_PKG.parentCursor
  )  RETURN ParentArray
      out_rec  ParentArray;
      someParent   ParentRecordType;
        FETCH p BULK COLLECT INTO out_rec LIMIT 100;

        FOR i IN 1 .. out_rec.COUNT
        out_rec(i).extra_column_A := countSomething (out_rec(i).field1, out_rec(i).field2);
        out_rec(i).extra_column_B := checkCondX(out_rec(i));
        out_rec(i).extra_column_C := checkCondY(out_rec(i));
        pipe row(out_rec(i));
        END LOOP;

  END processParents;

      Parents OUT THIS_PKG. parentCursor) IS
      OPEN Parents FOR
      SELECT *
      FROM TABLE(processParents (CURSOR(
        SELECT *
        FROM (
              --some select statement with quite a few where clause 
          --to simulate dynamic search (from pre-canned search options)
     ))) abc
      WHERE abc.extra_column_C like '%xyz%' --(xyz is a user given value)

Update Did some exploring yesterday and came across the Quest Batch SQL Optimizer (from Toad). I plugged in the package and here's what I got.

Batch Optimizer results Batch Optimizer results

Complex query Complex query

Problematic query Problematic query

share|improve this question
Have you done any profiling to indicate where the problem lies? – Bob Jarvis Apr 3 '13 at 23:29
@BobJarvis I doubt I can do a full on profiling as I am not the DBA and it might be difficult to tap his time. But I did run some analysis on the queries and attached the two explain plans. Is this what you're talking about? – user1766760 Apr 4 '13 at 18:02
Never "bar a complete rewrite" when it comes to SQL (or PL/SQL). Pipelining is an awesome feature, however frequently it can be eliminated by an improved declarative approach. – Clever Idea Widgetry Nov 8 '13 at 21:24

Quest Batch SQL Optimizer (from Toad) or any other tool will be unable to help you taking into consideration that they don't understand what you do inside the functions. The problem is in "FETCH p BULK COLLECT INTO out_rec LIMIT 100;". The quality of the query that is passed into p actually defines the final execution plan and run times. Pipelining is not the reason for slowness. When you run your procedure several times, Oracle uses cached data. My best advice is: use Java instead of PL/SQL for this particular purpose, it will be more simpler for understanding.

share|improve this answer

What is happening in the row processing section? A lot of time may be spent in these countSomething, checkCondX/Y functions. Are they also making SQL calls? I'd check the performance of the table function without the additional predicates first. It may be better to simply create a query which does this all in SQL rather than functions - if you can do this it will be very much quicker than calling out to a function for every row.

    out_rec(i).extra_column_A := countSomething (out_rec(i).field1, out_rec(i).field2);
    out_rec(i).extra_column_B := checkCondX(out_rec(i));
    out_rec(i).extra_column_C := checkCondY(out_rec(i));

Also the explain plan you provided is interesting as the optimiser believes there is only 1 row being returned from all tables (cardinality 1). If this isn't the case then the query plan will not be optimal. It may be necessary to gather statistics, use dynamic sampling or cardinality hints on the table function.

Finally, look into DBMS_SQLTUNE.REPORT_SQL_MONITOR which provides a detailed report on your sql. Unless the query is dynamically identified as needing monitoring your need to add the /*+ MONITOR */ hint. This provides more details like number of rows returned, execution count and other interesting tidbits not available in an explain plan.

FROM slow_query;

-- then run sqltune to get a report
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