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Linear tabulated resolution based on Prolog control strategy

Published online by Cambridge University Press:  03 April 2001

YI-DONG SHEN
Affiliation:
Department of Computer Science, Chongqing University, Chongqing 400044, People's Republic of China (e-mail: [email protected])
LI-YAN YUAN
Affiliation:
Department of Computing Science, University of Alberta, Edmonton, Alberta, Canada T6G 2H1 (e-mail: [email protected], [email protected])
JIA-HUAI YOU
Affiliation:
Department of Computing Science, University of Alberta, Edmonton, Alberta, Canada T6G 2H1 (e-mail: [email protected], [email protected])
NENG-FA ZHOU
Affiliation:
Department of Computer and Information Science, Brooklyn College, The City University of New York, New York, NY 11210-2889, USA (e-mail: [email protected])

Abstract

Infinite loops and redundant computations are long recognized open problems in Prolog. Two methods have been explored to resolve these problems: loop checking and tabling. Loop checking can cut infinite loops, but it cannot be both sound and complete even for function-free logic programs. Tabling seems to be an effective way to resolve infinite loops and redundant computations. However, existing tabulated resolutions, such as OLDT-resolution, SLG-resolution and Tabulated SLS-resolution, are non-linear because they rely on the solution-lookup mode in formulating tabling. The principal disadvantage of non-linear resolutions is that they cannot be implemented using a simple stack-based memory structure like that in Prolog. Moreover, some strictly sequential operators such as cuts may not be handled as easily as in Prolog. In this paper, we propose a hybrid method to resolve infinite loops and redundant computations. We combine the ideas of loop checking and tabling to establish a linear tabulated resolution called TP-resolution. TP-resolution has two distinctive features: (1) it makes linear tabulated derivations in the same way as Prolog except that infinite loops are broken and redundant computations are reduced. It handles cuts as effectively as Prolog; and (2) it is sound and complete for positive logic programs with the bounded-term-size property. The underlying algorithm can be implemented by an extension to any existing Prolog abstract machines such as WAM or ATOAM.

Type
Research Article
Copyright
© 2001 Cambridge University Press

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