Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm having problems using Bulk Bind in PL/SQL. Basically what I want is for a table(Component) to update its fieldvalue dependent on the Component_id and fieldname. All of these are passed in as paramaters (the type varchar2_nested_table is effectively and array of strings, one element for each update statement that needs to occur). So for instance if Component_id = 'Compid1' and fieldname = 'name' then fieldvalue should be updated to be 'new component name'.

I typed up the code below in relation to this http://www.oracle.com/technetwork/issue-archive/o14tech-plsql-l2-091157.html . The code works but is no faster than a simple loop that performs an update for every element in the IN parameters. So if the parameters have 1000 elements then 1000 update statements will be executed. I also realise I'm not using BULK COLLECT INTO but I didn't think I needed it as I don't need to select anything from the database, just update.

At the moment both take 4-5 seconds for 1000 updates. I assume I'm using the bulk bind incorrectly or have a misunderstanding of the subject as in examples I can find people are executing 50,000 rows in 2 seconds etc. From what I understand FORALL should improve performance by reducing the number of context switches. I have tried another method I found online using cursors and bulk binds but had the same outcome. Perhaps my performance expectations are too much? I don't think so from seeing others results. Any help would be greatly appreciated.

create or replace procedure BulkUpdate(sendSubject_in IN varchar2_nested_table_type,
fieldname_in IN varchar2_nested_table_type,fieldvalue_in IN   varchar2_nested_table_type) is


TYPE component_aat IS TABLE OF component.component_id%TYPE
  INDEX BY PLS_INTEGER;
TYPE fieldname_aat IS TABLE OF component.fieldname%TYPE
  INDEX BY PLS_INTEGER;
TYPE fieldvalue_aat IS TABLE OF component.fieldvalue%TYPE
  INDEX BY PLS_INTEGER;

fieldnames fieldname_aat;
fieldvalues fieldvalue_aat;
approved_components component_aat;


PROCEDURE partition_eligibility
IS
BEGIN
  FOR indx IN sendSubject_in.FIRST .. sendSubject_in.LAST
  LOOP
    approved_components(indx) := sendSubject_in(indx);
    fieldnames(indx):= fieldname_in(indx);
    fieldvalues(indx) := fieldvalue_in(indx);
  END LOOP;
END;


PROCEDURE update_components
IS
BEGIN
  FORALL indx IN approved_components.FIRST .. approved_components.LAST
    UPDATE Component
      SET Fieldvalue = fieldvalues(indx)
      WHERE Component_id = approved_components(indx)
      AND Fieldname = fieldnames(indx);
END;

BEGIN
  partition_eligibility;
  update_components;
END BulkUpdate;
share|improve this question
    
Could you add dbms_utility.get_time to measure the time before partition_eligibility, after it and after update_components to see where the time is spent. –  Eggi Mar 8 '12 at 10:59
    
I've measured it already. It takes 25 milliseconds when you don't execute update_components. With update_components takes 4500 milliseconds. –  user1255191 Mar 8 '12 at 11:10

1 Answer 1

up vote 0 down vote accepted

There is something else going on, I suspect your individual updates are each taking a lot of time, maybe because there are triggers or inefficient indexes. (Note that if each statement is expensive individually, using bulk updates won't save you a lot of time since the context switches are negligible compared to the actual work).

Here is my test setup:

CREATE TABLE Component (
  Component_id NUMBER,
  fieldname    VARCHAR2(100),
  Fieldvalue   VARCHAR2(100),
  CONSTRAINT component_pk PRIMARY KEY (component_id, fieldname)
);

-- insert 1 million rows
INSERT INTO component 
  (SELECT ROWNUM, to_char(MOD(ROWNUM, 100)), dbms_random.string('p', 10) 
     FROM dual 
   CONNECT BY LEVEL <= 1e6);

CREATE OR REPLACE TYPE varchar2_nested_table_type AS TABLE OF VARCHAR2(100);
/

SET SERVEROUTPUT ON SIZE UNLIMITED FORMAT WRAPPED
DECLARE
   l_id    varchar2_nested_table_type;
   l_names varchar2_nested_table_type;
   l_value varchar2_nested_table_type;
   l_time  NUMBER;
BEGIN
   SELECT rownum, to_char(MOD(rownum, 100)), dbms_random.STRING('p', 10) 
     BULK COLLECT INTO l_id, l_names, l_value
     FROM dual
   CONNECT BY LEVEL <= 100000;
   l_time := dbms_utility.get_time;
   BulkUpdate(l_id, l_names, l_value);
   dbms_output.put_line((dbms_utility.get_time - l_time) || ' cs elapsed.');
END;
/

100000 rows updated in about 1.5 seconds on an unremarkable test machine. Updating the same data set row by row takes about 4 seconds.

Can you run a similar script with a newly created table?

share|improve this answer
    
Oh really? I carried out a similar test and my results were 4.3 seconds for 1,000 rows. This was on a somewhat good spec machine too. Assuming You didn't change anything in BulkUpdate then my problem seems to be elsewhere. My database isn't doing anything else though. There are no triggers or index's etc. All its doing is inserting (Which takes .25 seconds for 1000 rows) and then updating. Thank you for taking the time out to test anyway. –  user1255191 Mar 8 '12 at 14:42
    
Can you run the test as I did (with a newly created table)? –  Vincent Malgrat Mar 8 '12 at 14:44
    
Thank you very much vincent. While looking at your test I saw that you had set a primary key to (id,fieldname). I hadn't set one as no field was unique and didn't think that i needed one. It its now running much faster (.049 seconds for 1,000). Thank you very much for your reply as I would not have even thought of it had i not seen your test. Thanks. –  user1255191 Mar 8 '12 at 15:00
    
This is because oracle automatically creates an index for primary keys. –  Eggi Mar 8 '12 at 17:04

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.