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In my system Users can add/edit/view Customers. I would like to add a feature allowing the user to see "Recently Viewed Customers". This would show them the last 20 customers which they have seen (which includes add/edit).

Users will view customers very often as they skip between different web pages and this needs to be very efficient. I would like to persist this across sessions so it needs to be saved to the database. There are about 16,000 users and 600,000 customers.

Here is what I'm thinking as the design.

Create a new table:

  • Columns are (UserId, CustomerId, DateViewed)
  • Primary key is (UserId, CustomerId)
  • Index-organised
  • Separate indxes on foreign keys UserId and CustomerId
  • DateViewed column only exists to allow ordering of the records

Create a PL/SQL procedure that with parameters of UserId and CustomerId responsible for storing that the user viewed the customer. In the PL/SQL procedure I would:

  • Use MERGE to insert or update a row with the given UserId and CustomerId setting DateViewed to SYSDATE
  • If a row was inserted by the merge, then use an analytic query to delete any rows with a row_number() > 20

The "Recently Viewed Customers" page then becomes a basic join between this new table and the customer table, ordered by DateViewed and limited to 20 records just in case. No need to include DateViewed in any index as it's only a 20 row sort.

Say, once a month, delete any records with DateViewed is older than a year. This would be a full scan. Cascade deletes from Customer and User to the new table.

Does anyone have suggestions for improvement or other ideas that are worth profiling?

(The other idea I had was to denormalise into a table with 20 columns for the different CustomerIds and shuffle values down from CustomerId1 -> CustomerId2 -> CustomerId3. This would require different updates depending on where the CustomerId already appeared in the list.)

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2 Answers 2

up vote 2 down vote accepted

I believe you've thought through the problem pretty thoroughly.

One thing I would suggest you try is deferring pruning the 21st (and later) most recently viewed customer(s) for a user. If you did this you'd have to include a TOP 20 in your selection query.

There will be some time required to complete the pruning operation (whether it's done with each new view or later). There will also be some incremental time involved in picking the top 20 from from a list of more than 20.

Depending on exactly how frequently a customer add/edit/view is done, it may be that pruning each time a record is inserted is more expensive than sorting and selecting the TOP 20. You could perform the pruning as a scheduled background task, say once per hour or even once per day.

It is also possible, depending on the actual usage, that performance is not and issue and you should instead be optimizing for maintainability, in which case you should do the simplest thing with the least code.

Regarding your other idea (20 denormalized columns): This is not recommended!

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Maybe I could prune 10% of the time at random. It's probably as quick to prune 5 rows as 1. – WW. Feb 27 '12 at 21:41
@WW. - Sure, I think pruning each time seems like it would be more expensive than it needs to be. My point is that I wouldn't hurt to try something simple and see how it goes. Then compare it to another approach and see if it makes a noticable difference. – Joel Brown Feb 27 '12 at 23:58

I agree with the columns and the primary key; I don't agree with the indexing strategy.

The query you're looking to optimize would be:

 select customer_id, rn 
   from (select customer_id, rownum as rn
           from user_viewed_customer
          where user_id = :p_user_id
          order by date_viewed desc)
  where rn <= 20;

The best case for that query is index-only: (user_id, date_viewed desc, customer_id). Having the table be index-organized adds little, as do single-column indexes on user_id and customer_id - the index on user_id isn't needed because of the multi-column index, and the customer_id index supports only the cascading deletes. I'm surprised that you're actually able to delete customers; what happens to the rest of their historical data when you do so?

Another strategy to consider is whether the table above should really be a table and a materialized view; a table for each combination of user_id and customer_id, and an on-commit materialized view that distills the larger table into the top 20 for each user. I'd only go for that optimization if performance of the larger table and query above was insufficient.

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I felt that the query you have listed will run quick by finding all 20 rows with user_id = ? and then it'll run a sort on DateViewed which will be quick as there are only 20 rows. – WW. Feb 27 '12 at 21:41
Actually, it should be able to "pick" the first 20 rows off of the index, already sorted. This avoids having to sort the data again - or even access the underlying table. – Adam Musch Feb 28 '12 at 19:04
I understand what you're saying, but I think that query will be quick with or without that specific index. What needs to be really quick is when a customer is viewed as this will happen very often. – WW. Feb 28 '12 at 21:54

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