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What are the range of tactics available for selecting records on low selectivity columns?

An example might be an orders table where, over many years, you build up a large number of completed orders but often need to select active orders. An order might go through a lifecycle such as placed, stock-allocated, picked from warehouse, despatched to customer, invoiced and paid. An order might additionally be cancelled, held, etc. The majority of records will eventually be in the final state (e.g. paid) but you might often need to select, say, allocated orders. In this case a sequential read would be slow.

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and numerous others decreasingly related.

The approaches I have read about (in stackoverflow and elsewhere) include

  • Use a bitmap index
  • Use a partial index (create index x on t(c2) where c1='a')
  • Use a clustered index?
  • Don't index low selectivity columns, use sequential read
  • Partition the data (e.g. into several tables with identical schema)
  • Use a supplementary table (e.g. active_customers(customer_id)

My current DBMS doesn't support the first three options listed above and the remainder seem problematic - are there any other commonly used approaches?

Update: I've seen - index your low-selectivity column, but only ever select for high-selectivity values.

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I'd normally suggest partitioning at this point. Why does this seem problematic? –  Mark Bannister Nov 15 '10 at 14:44
    
What is your DBMS? –  littlegreen Nov 15 '10 at 14:45
    
I suppose I was thinking of partitioning into a separate table for each status-value and therefore ending up with a lot of tables to maintain and complex code to move records from table to table. However I guess you could partition the data into status=final and "the rest". Even so sometimes you might want to select all records irrespective of status (e.g. some sort of monthly sales report) and I haven't thought how much extra work would be needed. –  RedGrittyBrick Nov 15 '10 at 14:50
    
@littlegreen. I'm not really looking for DBMS specific advice or for upgrade guidance. The DBMS I had in mind was Informix SE but please don't focus on that. –  RedGrittyBrick Nov 15 '10 at 14:52
    
@RedGrittyBrick, as for partitioning, some DB engines can partition on column value automatically (and there are two levels - logically it could be still single table, just physically stored on different HDDs for example). If you actually create separate tables joining them back requires maintaining one UNION ALL view (that's it). –  Unreason Nov 15 '10 at 14:58

3 Answers 3

up vote 2 down vote accepted

I agree with Unreason's However branch. But there are some things to know about this case.

This is called skew and skew kills. This is a perfect use for a partial index where you'd exclude the 95% of paid invoices and only index the more interesting and selective stats. But you don't have that. You can horizontally partition all the rows into separate table/partitions but then you need to account for row migration (moving from one status to another) and that's expensive. The DBMS has to perform an Update, a Delete and an insert to change the status. If you're a high volume system that will hurt.

Forget what you said about whether or not to index based on selectivity because putting an index on a rapidly changing column is also usually a bad idea. Your index will have hot blocks where all the step 1's are being removed and another where all the step 2's are being inserted and oh btw, some step 2's are being removed at the same time into step 3's. This won't scale well.

I would recommend vertically partitioning your status into a separate table(s).

Your invoice table will have a PK and all the columns except status.

Your status you can handle two ways. That table will have the PK value as an FK back to the invoice table, the Status and a timestamp for when you entered that status. The best is a horizontally partitioned table on status. You'll have a partition for each status possible. So finding all or one "Placed" status will partition prune and read only the partition it needs - which is a very small number of blocks. Because the row is so narrow, you might get 400 invoice statuses on a single block. Looking up that status of any one invoice is easy since there's a global index on the PK.

If your RDBMS doesn't support partitioning with row migration, you'll need to manage these partitions as tables and delete from one and insert into another. You'll encapsulate these movements in a transaction in a procedure, so you keep the data clean. Every invoice is in one and only one status table. The harder part is querying by invoice ID, you'll have to check every table to see where it is.

You have another choice You can either write paid statuses or not. If it's a partitioned table, you can just delete the invoice from the invoice status table when it moves to paid. (Of course you'll write a paid record to the history table mentioned in the bonus material). Then you'll do an outer join to the status table and nulls mean paid. If you almost never query for paid status, there's really no reason to make that a fast query.

Bonus Material

in either case you'll want to keep track of these movements in a reporting table. Everytime you update a status, you'll want to write that to a history table. Eventually you'll want to analyze what I call transit times. What's the average time from filled to paid, by month? Is that increasing as a result of the bad economy? what's the transit time from placed to filled, by month. Do the summer months take longer because of missing bodies on vacation? you get the point. By updating that column you're losing those answers, so you'll need to embed that history log into your procedures.

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Out of all the approaches you have listed only one (use sequential read) is approach that has anything to do with low selectivity (well, clustered can qualify, too).

If you have low selectivity on a column this means that scans will perform better than lookup.

Index can be used to do

  • index lookups - check the index pointer, retrieve record, repeat
  • index scans - scan the index and get values directly from index

otherwise it is not very useful.

If the selectivity is low that means that a large part of the index would be read and, if using lookups, large part of the data would be then read, in some random order. This is inefficient if you cover a significant percentage of the underlying table, so the better method would be to do sequential read (which is also slow).

So if selectivity is low, there's nothing much you can do (clustering can help).

However, I am not convinced that you understand that in your example you do not have low selectivity. As you say most entries will be paid, and very little entries will be allocated. These (allocated) entries will have high selectivity. Especially if there are additional conditions and if there is a composite index containing those additional conditions.

So, you might be banging your head against a non problem.

Now, it is true that you might improve performance further by partitioning data or using supplementary table (if you need to).

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Thanks for the clarification regarding specific values and composite indices. –  RedGrittyBrick Nov 15 '10 at 15:00

Partitioning is an approach that stores the same table in separate areas based on data - SQL developers do not have to access separate tables.

I think it is ideal for the problem described - you can find more about it on Informix here: http://www.dbmag.intelligententerprise.com/blog/main/archives/2008/09/data_partitioni.html

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Thanks Mark, it looks like I was using the term incorrectly. Interesting article –  RedGrittyBrick Nov 15 '10 at 15:17
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Actually if you want to be precise, no you are not right - it might be transparent to the user and it might not - in both cases it is called partitioning. (there is also concept of horizontal partitioning, not only vertical) –  Unreason Nov 15 '10 at 15:54
    
@Unreason, point taken - I should have phrased my answer to reflect that this is a way of partitioning that is supported in Informix (the one I had in mind in my earlier comment), not the only approach possible. –  Mark Bannister Nov 15 '10 at 16:16
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@Unreason, I think you mean to say there is also a concept of vertical since the entire discussion to this point has been about horizontal partition (segregating rows). –  Stephanie Page Nov 18 '10 at 19:39

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