论文信息 - Efficient Algorithms for Bounded Rigid E-unification

Efficient Algorithms for Bounded Rigid E-unification

Rigid E-unification is the problem of unifying two expressions modulo a set of equations, with the assumption that every variable denotes exactly one term rigid semantics. This form of unification was originally developed as an approach to integrate equational reasoning in tableau-like proof procedures, and studied extensively in the late 80s and 90s. However, the fact that simultaneous rigid E-unification is undecidable has limited the practical relevance of the method, and to the best of our knowledge there is no tableau-based theorem prover that uses rigid E-unification. We recently introduced a new decidable variant of simultaneous rigid E-unification, bounded rigid E-unification BREU, in which variables only represent terms from finite domains, and used it to define a first-order logic calculus. In this paper, we study the problem of computing solutions of individual or simultaneous BREU problems. Two new unification procedures for BREU are introduced, and compared theoretically and experimentally.

Philipp Rümmer | Peter Backeman | Peter Backeman | P. Rümmer

[1] Stig Kanger,et al. A Simplified Proof Method for Elementary Logic , 1959 .

[2] Andrei Voronkov,et al. Equality Reasoning in Sequent-Based Calculi , 2001, Handbook of Automated Reasoning.

[3] Philipp Rümmer,et al. Theorem Proving with Bounded Rigid E-Unification , 2015, CADE.

[4] Philipp Rümmer,et al. A Constraint Sequent Calculus for First-Order Logic with Linear Integer Arithmetic , 2008, LPAR.

[5] Melvin Fitting,et al. First-Order Logic and Automated Theorem Proving , 1990, Graduate Texts in Computer Science.

[6] Greg Nelson,et al. Fast Decision Procedures Based on Congruence Closure , 1980, JACM.

[7] Andrei Voronkov,et al. What You Always Wanted to Know about Rigid E-Unification , 1996, Journal of Automated Reasoning.

[8] J. A. Robinson,et al. Handbook of Automated Reasoning (in 2 volumes) , 2001 .

[9] Wayne Snyder,et al. Theorem Proving Using Rigid E-Unification Equational Matings , 1987, LICS.

[10] Ashish Tiwari,et al. Rigid E-Unification Revisited , 2000, CADE.

[11] Ashish Tiwari,et al. Abstract Congruence Closure , 2003, Journal of Automated Reasoning.

[12] M. Fitting. First-order logic and automated theorem proving (2nd ed.) , 1996 .

[13] Andrei Voronkov,et al. Kanger’s Choices in Automated Reasoning , 2001 .