Excuse me if I get a little mathy for a second:

I have two

sets, X and Y, and a many-to-manyrelationℜ ⊆ X✗Y.

- For all x ∈ X, let xℜ = { y | (x,y) ∈ ℜ } ⊆ Y, the subset of Y associated with x by ℜ.
- For all y ∈ Y, let ℜy = { x | (x,y) ∈ ℜ } ⊆ X, the subset of X associated with y by ℜ.
Define a

queryas a set of subsets of Y, Q ⊆ ℘(Y).Let the

imageof the query be the union of the subsets in Q:image(Q) = U_{q∈Q}qSay an element of X x

satisifiesa query Q if for all q ∈ Q, q ∩ xℜ ≠ ∅, that is if all subsets in Q overlap with the subset of Y associated with x.Define

evidenceof satisfaction of an element x of a query Q such that:evidence(x,Q) = xℜ ∩ image(Q)That is, the parts of Y that are associated with x and were used to match some part of Q. This could be used to verify whether x satisfies Q.

My question is how should I store my relation ℜ so that I can efficiently report which x∈X satisfy queries, and preferably report evidence of satisfaction?

The relation isn't overly huge, as csv it's only about 6GB. I've got a couple ideas, neither of which I'm particularly happy with:

- I could store { (x, xℜ) | ∀ x∈X } just in a flat file, then do O(|X||Q||Y|) work checking each x to see if it satisfies the query. This could be parallelized, but feels wrong.
- I could store ℜ in a DB table indexed on Y, retrieve { (y, ℜy) | ∀ y∈image(Q) }, then invert it to get { (x, evidence(x,Q)) | ∀ x s.t. evidence(x,Q) ≠ ∅ }, then check just that to find the x that satisfy Q and the evidence. This seems a little better, but I feel like inverting it myself might be doing something I could ask my RDBMS to do.

How could I be doing this better?