AbstractA successful SLD-derivation from a logic program has as result a positive assertion which is a logical implication of the program regarded as a theory of first-order logic. A finite and failed SLD-tree has as result a negation which is a logical implication of a certain theory which is a strengthened version of the program. In this paper we are concerned with a more general notion of result, one that is applicable to all SLD-derivations, independently of whether they continue on to success, to failure, or whether they are infinite. We discuss the application of our theorem to fair (in the sense of Lassez and Maher) infinite computations
AbstractA necessary and sufficient condition for a given marked tree to have no infinite paths satis...
AbstractWe present an infinite-game characterization of the well-founded semantics for function-free...
AbstractMints (1986) has given a deductive calculus, a set of proof rules, for pure Prolog such that...
AbstractA successful SLD-derivation from a logic program has as result a positive assertion which is...
AbstractWe use the notions of closures and fair chaotic iterations to give a semantics to logic prog...
AbstractComplete logic programs augmented with the domain-closure axiom are proposed as the referenc...
An obstacle to practical logic programming systems with equality is infinite computation. In the dis...
AbstractA classification of any logic program's failures into different levels of general finite fai...
AbstractThe notions of acyclicity and acceptability fail to characterize termination of general logi...
We give a direct proof of the following theorem: if a goal Gσ is a logical consequence of the partia...
AbstractFor logic programs that compute infinite atoms, SLD-resolution is not complete with respect ...
AbstractWe show that termination is a first-order notion if approached via Nonstandard Logics of Pro...
AbstractWe introduce global SLS-resolution, a procedural semantics for well-founded negation as defi...
Coalgebra may be used to provide semantics for SLD-derivations, both finite and infinite. We first g...
AbstractAssertional s-rings are introduced to provide an algebraic setting in which the finite and i...
AbstractA necessary and sufficient condition for a given marked tree to have no infinite paths satis...
AbstractWe present an infinite-game characterization of the well-founded semantics for function-free...
AbstractMints (1986) has given a deductive calculus, a set of proof rules, for pure Prolog such that...
AbstractA successful SLD-derivation from a logic program has as result a positive assertion which is...
AbstractWe use the notions of closures and fair chaotic iterations to give a semantics to logic prog...
AbstractComplete logic programs augmented with the domain-closure axiom are proposed as the referenc...
An obstacle to practical logic programming systems with equality is infinite computation. In the dis...
AbstractA classification of any logic program's failures into different levels of general finite fai...
AbstractThe notions of acyclicity and acceptability fail to characterize termination of general logi...
We give a direct proof of the following theorem: if a goal Gσ is a logical consequence of the partia...
AbstractFor logic programs that compute infinite atoms, SLD-resolution is not complete with respect ...
AbstractWe show that termination is a first-order notion if approached via Nonstandard Logics of Pro...
AbstractWe introduce global SLS-resolution, a procedural semantics for well-founded negation as defi...
Coalgebra may be used to provide semantics for SLD-derivations, both finite and infinite. We first g...
AbstractAssertional s-rings are introduced to provide an algebraic setting in which the finite and i...
AbstractA necessary and sufficient condition for a given marked tree to have no infinite paths satis...
AbstractWe present an infinite-game characterization of the well-founded semantics for function-free...
AbstractMints (1986) has given a deductive calculus, a set of proof rules, for pure Prolog such that...