On proving inductive properties of abstract data types

Musser, David R.

doi:10.1145/567446.567461

Cited by 155 publications

(45 citation statements)

References 17 publications

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“…Finally, in Section 7, we present, within the same proof-transformation framework, a method for proving inductive theorems, due originally to Musser [49], based on the concept of "proof by consistency." With this method, it is easy to prove automatically from the definition of multiplication given at the outset that 0 X x R:: O.…”

Section: X·y)·z ~ X·(y·z)mentioning

confidence: 99%

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Equational inference, canonical proofs, and proof orderings

Bachmair

Dershowitz

1994

J. ACM

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We describe the application of proof orderings-a technique for reasoning about inference systems-to various rewrite-based theorem-proving methods, including refinements of the standard Knuth-Bendix completion procedure based on critical pair criteria; Huet's procedure for rewriting modulo a congruence; ordered completion (a refutationally complete extension of standard completion); and a proof by consistency procedure for proving inductive theorems.

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Section: X·y)·z ~ X·(y·z)mentioning

confidence: 99%

“…Musser [49] was the first to describe an inductive completion procedure. His procedure applies to abstract data type specifications, where an equality predicate eq is associated with each data type and the specification is "sufficiently complete," so that each ground expression eq( s, t) can be reduced to the Boolean constant true or false.…”

mentioning

confidence: 99%

Equational inference, canonical proofs, and proof orderings

Bachmair

Dershowitz

1994

J. ACM

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“…Here, an induction scheme explicitly gives the base cases and the step cases, where a step case consists of an obligation and one or more hypotheses. In implicit induction (see, e.g., [33,21,26,24,16,27,34,7,1,37]), no concrete induction scheme is constructed a priori. Instead, an induction scheme is implicitly constructed during the proof attempt.…”

Section: Introductionmentioning

confidence: 99%

Rewriting Induction + Linear Arithmetic = Decision Procedure

Falke¹,

Kapur

2012

Lecture Notes in Computer Science

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Abstract. This paper presents new results on the decidability of inductive validity of conjectures. For this, a class of term rewrite systems (TRSs) with built-in linear integer arithmetic is introduced and it is shown how these TRSs can be used in the context of inductive theorem proving. The proof method developed for this couples (implicit) inductive reasoning with a decision procedure for the theory of linear integer arithmetic with (free) constructors. The effectiveness of the new decidability results on a large class of conjectures is demonstrated by an evaluation of the prototype implementation Sail2.

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“…Were a convergent system R to include rules that reduce any valid ground equation eq (g, d) to T and invalid ones to F (for some equality symbol eq), then letting (Eo; Ra) be ({ S -t}; R) and completing fairly, would generate the contradiction F -T whenever S = t is not an identity in the initial model of R. This is the method of Musser (1980) (see also Goguen (1980), Huet and Oppen (1980), and Kapur (1980)); its correctness follows directly from the fairness of completion, since, if S # I(R) t, then…”

Section: Proof By Consistencymentioning

confidence: 99%