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Encoding FIX in Object Calculi

Published online by Cambridge University Press:  15 April 2002

Roy L. Crole*
Affiliation:
Department of Mathematics and Computer Science, University of Leicester, University Road, Leicester LE1 7RH, U.K.; ([email protected])
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Abstract

We show that the FIX type theory introduced by Crole and Pitts [3] can be encoded in variants of Abadi and Cardelli's object calculi. More precisely, we show that the FIX type theory presented with judgements of both equality and operational reduction can be translated into object calculi, and the translation proved sound. The translations we give can be seen as using object calculi as a metalanguge within which FIX can be represented; an analogy can be drawn with Martin Löf's Theory of Arities and Expressions. As well as providing a description of certain interesting recursive objects in terms of rather simpler expressions found in the FIX type theory, the translations will be of interest to those involved with the automation of operational semantics.

Keywords

Type
Research Article
Copyright
© EDP Sciences, 2000

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References

M. Abadi and L. Cardelli, A Theory of Objects. Springer-Verlag, Monogr. Comput. Sci. (1996).
R.L. Crole, Functional Programming Theory (1995). Department of Mathematics and Computer Science Lecture Notes, LATEX format iv+68 pages with index.
Crole, R.L. and Pitts, A.M., New Foundations for Fixpoint Computations: FIX Hyperdoctrines and the FIX Logic. Information and Computation 98 (1992) 171-210. LICS '90 Special Edition of Information and Computation. CrossRef
A.D. Gordon, Bisimilarity as a theory of functional programming. Electron. Notes Theor. Comput. Sci. 1 (1995).
A.D. Gordon, Everything is an object. Seminar Notes, Microsoft Research U.K. (1997).
C.A. Gunter, Semantics of Programming Languages: Structures and Techniques. Foundations of Computing. MIT Press (1992).
G. Kahn, Natural semantics, edited by K. Fuchi and M. Nivat, Programming of Future Generation Computers. Elsevier Science Publishers B.V. North Holland (1988) 237-258.
Z. Luo, Computation and Reasoning. Oxford University Press, Monogr. Comput. Sci. 11 (1994).
Moggi, E., Notions of computation and monads. Theoret. Comput. Sci. 93 (1989) 55-92.
B. Nordström, K. Petersson and J.M. Smith, Programming in Martin-Löf's Type Theory. Oxford University Press, Monogr. Comput. Sci. (1990).
A.M. Pitts, Operationally Based Theories of Program Equivalence, edited by P. Dybjer and A.M. Pitts, Semantics and Logics of Computation (1997).
G.D. Plotkin, A structural approach to operational semantics. Technical Report DAIMI-FN 19. Department of Computer Science, University of Aarhus, Denmark (1981).
G. Winskel, The Formal Semantics of Programming Languages. Foundations of Computing. The MIT Press, Cambridge, Massachusetts (1993).