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Notice détaillée

Synthesising Programs with Non-trivial Constant

Article Ecrit par: Abate, Alessandro ; Barbosa, Haniel ; Barrett, Clark ; David, Cristina ; Kesseli, Pascal ; Kroening, Daniel ; Polgreen, Elizabeth ; Reynolds, Andrew ; Tinelli, Cesare ;

Résumé: Program synthesis is the mechanised construction of software. One of the main difficulties is the efficient exploration of the very large solution space, and tools often require a user-provided syntactic restriction of the search space. While useful in general, such syntactic restrictions provide little help for the generation of programs that contain non-trivial constants, unless the user is able to provide the constants in advance. This is a fundamentally difficult task for state-of-the-art synthesisers. We propose a new approach to the synthesis of programs with non-trivial constants that combines the strengths of a counterexample-guided inductive synthesiser with those of a theory solver, exploring the solution space more efficiently without relying on user guidance. We call this approach CEGIS(T), where T is a first-order theory. We present two exemplars, one based on Fourier-Motzkin (FM) variable elimination and one based on first-order satisfiability. We demonstrate the practical value of CEGIS(T) by automatically synthesising programs for a set of intricate benchmarks. Additionally, we present a case study where we integrate CEGIS(T) within the mature synthesiser CVC4 and show that CEGIS(T) improves CVC4’s results


Langue: Anglais