On linear rewriting systems for Boolean logic and some applications to proof theory
Résumé
Linear rules have played an increasing role in structural proof theory in recent
years. It has been observed that the set of all sound linear inference rules in Boolean logic
is already coNP-complete, i.e. that every Boolean tautology can be written as a (left- and
right-)linear rewrite rule. In this paper we study properties of systems consisting only of
linear inferences. Our main result is that the length of any ‘nontrivial’ derivation in such a
system is bound by a polynomial. As a consequence there is no polynomial-time decidable
sound and complete system of linear inferences, unless coNP = NP. We draw tools and
concepts from term rewriting, Boolean function theory and graph theory in order to access
some required intermediate results. At the same time we make several connections between
these areas that, to our knowledge, have not yet been presented and constitute a rich
theoretical framework for reasoning about linear TRSs for Boolean logic.