I need to store a large number of alias entries in a table. Aliases as in synonyms, not as in email forwarding. In particular, I assume symmetry.
Right now I'm using this structure and indexes:
PRAGMA legacy_file_format = OFF; PRAGMA page_size = 8192; PRAGMA synchronous = OFF; CREATE TABLE aliases (a TEXT, b TEXT); CREATE INDEX i1 ON aliases (a); CREATE INDEX i2 ON aliases (b);
I'm expecting around 2 million distinct keys, usually with 2-4 aliases, so around 3 million rows. The final database will likely by around 300 MB. This is a significant amount, so I'm trying to keep the memory use under control, for example by NOT inserting symmetric records. (In fact, I tried first to use an in-memory python dictionary, but ran out of memory - I need to do other things as well, of course 300 MB would fit into main memory usually). I do keep all pairs, so if
a~b~c, then this can e.g. be represented by
a~b (since computing the transitive closure is not efficient in sqlite, plus this occurs not that often for me)
My queries will usually be the retrieval of all aliases for a record, but updates are a major part, too. The table largely serves as an interim disk-storage and for faster random access. I need it for building; I cannot bulk-load but need to query while building.
For queries, I'm using:
SELECT b FROM aliases WHERE a = ? UNION SELECT a FROM aliases WHERE b = ?
since two queries (with a good index, the keys are well indexable by B+-trees) are supposedly faster here than using twice as much memory. I'm also trying to avoid inserting
b -> a when
a -> b already is in the table (essentially by querying first).
Any hints of optimizing this with Sqlite3? Thank you.