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I am currently doing performance and also memory tuning in our hibernate based app for large bulk/batch imports. We are basically importing a CSV file with product data where some products are new (insert) and some exist (update).

My focus now is on choosing a strategy to find out which entities to UPDATE and which ones to INSERT, without doing a check (Select if exists) for each row in the CSV file.

My current approach is like this:

  1. build a hashmap of all the objects inside the database.
  2. iterate over CSV and use the hashmap to decide whether to update or insert.

This approach works well and test have proved it is magnitudes faster than doing such a single IF EXISTS check for every row.

My concern is memory size if there are LOTS of entities in the DB.

right now I think about using a slight variation of the approach above and I would like to know opinions. Basically what I want to do is doing multiple batches of IF EXISTS checks with multiple rows (e.g. SELECT FROM table where sku IN (sku1, sku2, sku3) )

Here is some pseudo code:

1. Database contains: db{sku1, sku2,sku3,sku5}

2. file contains: file {sku1, sku2, sku3, sku6}

3. Expected result: 
   updates: {sku1, sku2, sku3}
   inserts{sku6}

4. Algorithm

   have a map to keep database entities which need updates
   updatemap {}
   now iterate over the file in e.g. batches of 2 rows (for demo purposes)
   1st iteration: foreach (select where sku IN (sku1, sku2) limit 2) as elem
    -> updatemap.add(elem)  -> elem is asumed to be a persistent entity here
    -> myDAO.update(elem)   -> executes Spring's getHibernateTemplate().update() under the hood

   -> updatemap contents after 1st loop {sku1, sku2}

   2nd iteration: foreach (select where sku IN (sku3, sku6) limit) 2 as elem
    -> updatemap.add(elem)    
    -> myDAO.update(elem)

   -> updatemap contents after 3nd loop {sku1, sku2, sku3}

btw: I also already assume stuff like (if i % 30 == 0) session.flush; session.clear();

Now we know all elements which were updated. All skus not in updatemap are basically inserts and we can use simple set arithmetic to determine those by doing

file {sku1, sku2, sku3, sku6} - updatemap {sku1, sku2, sku3} = newinserts {sku6}

Now we can go ahead and do inserts for the remaining CSV rows.

Conclusion My assumption is that because of the chunking of the file contents i can limit the amount of memory used. I have more SELECT statements than my initial approach but I have more control over memory usage in case there are thousands of entities in the DB already.

What are your ideas on this? What other efficient approaches exist to find out which entities to update and which to insert in bulk?

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2 Answers 2

I had the exact same problem, involving millions of records, and solved it pretty much exactly as you. A constraint that may not be obvious to a side observer is that we cannot use the regular Hibernate way of load-mutate-update since that would create an inordinate amount of redundant traffic.

On closer reading, my approach differs from yours in that I don't retain any information beyond the processing of a single chunk. I process the chunk in full, including all inserts and updates, before proceeding to the next one. Only that way you have a scalable solution.

The weakest point for me is the use of executeUpdate, which will not use the JDBC batching API. I was planning to make a custom implementation, but for my specific use case it turned out I didn't need to use more than one executeUpdate per chunk.

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thanks for your answer. The executeUpdate in my example was not meant to be the executeUpdate of hibernate. I modified my example to 'myDAO.update(elem)'. My assumption is that this should make use of the batching capabilities if I enabled 'hibernate.jdbc.batch_size=30', 'hibernate.order_inserts=true' and 'hibernate.order_updates=true' and set 'rewriteBatchedStatements=true' on the connectionURL. Is this what you mean by 'the weakest point'? –  Christoph Aug 26 '12 at 18:06
    
Hm. And how is myDAO.update implemented in terms of Hibernate? If you already have a persistent elem, that means it came from the DB, so it was unnecessarily loaded. If not, then you'd have to merge it into the session, then update, which would result in the same thing. Anyway you do it through Hibernate's entity state management, it will result in unnecessary traffic from the DB to you. –  Marko Topolnik Aug 26 '12 at 18:09
    
Yesm in my original question in 'myDAO.update(elem)' elem would be a persistent entity as a result of the 'select where sku IN (sku1, sku2) limit 2'. At least that's what I thought makes sense, because I want to update the entity which is already in the DB, thus I need to load it. Could you elaborate a bit more on your approach? Are you referring to a direct plain SQL/JDBC 'UPDATE table_of_elem SET fields=vals WHERE sku='sku1' etc. without fetching the entity via hibernate? –  Christoph Aug 26 '12 at 18:15
1  
I only select the IDs and I thought you did the same. Then I use executeUpdate, which translates to the immediate execution of an UPDATE. I don't need to know the old values in order to write new ones. If I did that, it would double the traffic. –  Marko Topolnik Aug 26 '12 at 18:17
1  
Note that you will probably face the inefficiency of executeUpdate, though, because it doesn't employ batching. My idea would be to make some custom code that does raw JDBC batch updates. –  Marko Topolnik Aug 26 '12 at 18:23

My thoughts

1) when you do this SELECT FROM table where sku IN (sku1, sku2, sku3) )

each query might do a full table scan when sku is not found and if you do this for the remaining entities in n passes worst case it may require n * table scans.

Perhaps a simpler approach would be create a duplicate table for all the entities in csv(may be only one column for skus and perform MINUS to get the new skus to be inserted)

 select sku from dup_table
  MINUS  //(EXCEPT for Mysql)
 select sku from table`

you may save these records in to the new table (dup_table2) and performing another MINUS on dup_table will give the skus to be updated. But these operators are db specific and i am not sure how much performance gain is seen. But IMHO looks much better option than where in clause (esp when the csv list goes big)

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Is it doing a full-table scan also if there is an index on the sku column? btw. i am using MySQL –  Christoph Aug 26 '12 at 19:37
    
If it is indexed it might still do an index scan and this may not be desirable when you have large data set (both db and the csv). I found some links that may be relevant to this stackoverflow.com/questions/1537675/performance-of-mysql-in (suggests a join on temporary table) and see this (oracle) dbforums.com/ansi-sql/738850-not-vs-minus.html –  srikanth yaradla Aug 26 '12 at 20:19

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