I'm working on some rather large queries for a search function. There are a number of different inputs and the queries are pretty big as a result. It's grown to where there are nested subqueries 2 layers deep. Performance has become an issue on the ones that will return a large dataset and likely have to sift through a massive load of records to do so. The ones that have less comparing to do perform fine, but some of these are getting pretty bad. The database is DB2 and has all of the necessary indexes, so that shouldn't be an issue. I'm wondering how to best write/rewrite these queries to perform as I'm not quite sure how the optimizer is going to handle it. I obviously can't dump the whole thing here, but here's an example:
Select A, B from TableA --A series of joins-- WHERE TableA.A IN ( Select C from TableB --A few joins-- WHERE TableB.C IN ( Select D from TableC --More joins and conditionals-- ) )
There are also plenty of conditionals sprinkled throughout, the vast majority of which are simple equality. You get the idea. The subqueries do not provide any data to the initial query. They exist only to filter the results. A problem I ran into early on is that the backend is written to contain a number of partial query strings that get assembled into the final query (with 100+ possible combinations due to the search options, it simply isn't feasible to write a query for each), which has complicated the overall method a bit. I'm wondering if EXISTS instead of IN might help at one or both levels, or another bunch of joins instead of subqueries, or perhaps using WITH above the initial query for TableC, etc. I'm definitely looking to remove bottlenecks and would appreciate any feedback that folks might have on how to handle this.
I should probably also add that there are potential unions within both subqueries.