We have the following table structure:
table|FooTable|FooTable|2|CREATE TABLE FooTable (FooOne,FooTwo,FooThree,FooFour,FooFive,Data,MoreData NOT NULL UNIQUE,ExtraData)
The goal is to get Data, MoreData, and ExtraData for a set of identifiers. The identifiers can match one of the values in FooOne through FooFive, but we don't know which. Different identifiers can be in different Foos. All Foos have indices on them.
In one (somewhat common) case, every FooOne contains the same value, "foo". In other words, it's not useful in identification. When we try to look up data using just FooOne, we expect to get nothing, and that is in fact what happens. However, sqlite is taking 20 to 40 ms to return this nothing:
sqlite> SELECT * FROM FooTable WHERE FooOne="barbaz"; CPU Time: user 0.024001 sys 0.000000
Explain shows us why:
sqlite> EXPLAIN QUERY PLAN SELECT * FROM FooTable WHERE FooOne="barbaz"; 0|0|0|SCAN TABLE FooTable (~7198 rows)
I would think that, even though the index of FooOne is pretty much useless, sqlite would be able to use it to determine the absence of a query term.
Running the query on the other Foos performs as expected:
sqlite> SELECT * FROM FooTable WHERE FooTwo="barbaz"; foo|barbaz|three|four|five|your|desired|data CPU Time: user 0.000000 sys 0.000000
We can of course use programmatic heuristics to avoid these types of queries at all (though these heuristics will only work in certain cases). However, I'm curious as to why sqlite is failing to optimize away the query by doing a simple key check in the index.
By the way, the database is ANALYZEd. If you'd like to see the analyze stats let me know.
Edit: Here's the index schema for FooOne (it's identical for the others)
index|FooOneIndex|FooTable|8497|CREATE INDEX FooIndex ON FooTable (FooOne)