1 research outputs found
Consistent Query Answering for Primary Keys on Rooted Tree Queries
We study the data complexity of consistent query answering (CQA) on databases
that may violate the primary key constraints. A repair is a maximal subset of
the database satisfying the primary key constraints. For a Boolean query q, the
problem CERTAINTY(q) takes a database as input, and asks whether or not each
repair satisfies q. The computational complexity of CERTAINTY(q) has been
established whenever q is a self-join-free Boolean conjunctive query, or a (not
necessarily self-join-free) Boolean path query. In this paper, we take one more
step towards a general classification for all Boolean conjunctive queries by
considering the class of rooted tree queries. In particular, we show that for
every rooted tree query q, CERTAINTY(q) is in FO, NL-hard LFP, or
coNP-complete, and it is decidable (in polynomial time), given q, which of the
three cases applies. We also extend our classification to larger classes of
queries with simple primary keys. Our classification criteria rely on query
homomorphisms and our polynomial-time fixpoint algorithm is based on a novel
use of context-free grammar (CFG).Comment: To appear in PODS'2