Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

In IDS?..SE?.. SQL Server, Oracle, MySQL and others automatically insert new rows into the appropiate location in the datafile to maintain the clustering.

share|improve this question
up vote 1 down vote accepted

The way Informix handles clustered indexes is by rebuilding the table (and index) so that the data in the table is in the correct physical sequence for the index at the time when the index is created. Thereafter, rows are inserted wherever seems most appropriate, which does not continue to preserve the clustered order. This has been the case since (Informix-SQL 1.10 in 1985) Informix-SQL 2.10 from 1986 (possibly 2.00; I don't have a manual for that still) through Informix Dynamic Server 11.70 in 2010.

The statement:


is always very quick. The complementary statement:


is often a slow process, involving creating a full new version of the table and the index before dropping the old table and index.

The ISQL 1.10 manual does not have ALTER INDEX; the 2.10 manual does has ALTER INDEX.

share|improve this answer
"...inserted wherever seems most appropiate..." meaning like at EOF?.. I no longer use 2.10, I'm up to 4.10 (DOS) and working fine under Virtual PC 2007. UNLOADING the table with an ORDER BY in my SELECT STATEMENT and recreating the table and indexes would be the equivalent of creating a clustered index?.. I do this every seven days and works well with 20,000 nrows, but can imagine would take a long time with 500,000 nrows. – FrankComputerAtYmailDotCom Jun 11 '11 at 22:11
My objective is when I query one of my 20,000 customers, I want quick response in locating all of the queried customers transactions, which are in a child table.. If the customers transactions are scattered throughout the table then it takes longer to return them, whereas clustering these transactions by keeps them together. – FrankComputerAtYmailDotCom Jun 11 '11 at 22:20
@Frank: 'meaning like at EOF'; if you've not deleted anything, then yes at the end. If you've deleted rows, then those slots may be reused. Yes, UNLOAD with ORDER BY and then LOAD would be essentially the same as creating a clustered index - though the workload on the system is higher because the clustered index doesn't have to transfer all the data to the client on unload and back to the server on load. – Jonathan Leffler Jun 11 '11 at 22:39
Periodically clustering the index on customer ID will keep things close enough together that the response time won't suffer noticeably. Sure, a few records might be scattered away from the rest, but you are pretty unlikely to notice, and the majority will be close together. – Jonathan Leffler Jun 11 '11 at 22:42
no rows in this table are deleted by users or a proc, so new rows are placed at EOF. I experimented unloading, reloading and creating non-clustered index on fk_id vs. alter index to clustered and query retrieval time was much faster with non-clustered index!.. I thought retrieval would be quicker with clustered index vs. non-clustered. Could you explain how the cost-based query optimizer handles this? – FrankComputerAtYmailDotCom Jun 12 '11 at 23:53

I can't answer for IDS but I can for some you mentioned.

It depends on the platforms: does it use pages and does it separate data from index tree?

Generally, physical ordering of rows is not maintained: only logical ordering can be

Reason: you can't "make room" on a fixed size page (as Bohemian suggested)

So if you extend a row (eg add more data to a long varchar) or insert in between (ID=3 between rows id IN (2,4)) then the one of the following happens

  • row is taken out to a new page with pointers
  • row overflows (SQL Server 2005+ for example)
  • page is split

This results in logical/index fragmentation and reduced data density (per page): which is why we have index maintenance to remove this.

share|improve this answer

Your Answer


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.