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7 - Domain equations

Published online by Cambridge University Press:  05 November 2011

Roberto M. Amadio
Affiliation:
Université de Provence
Pierre-Louis Curien
Affiliation:
Ecole Normale Supérieure, Paris
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Summary

This chapter presents general techniques for the solution of domain equations and the representation of domains and functors over a universal domain. Given a category of domains C we build the related category Cip (cf. chapter 3) that has the same objects as C and injection-projection pairs as morphisms (section 7.1). It turns out that this is a suitable framework for the solution of domain equations. The technique is applied in section 7.2 in order to solve a predicate equation. In turn, the solution of the predicate equation is used in proving an adequacy theorem for a simple declarative language with dynamic binding.

The category of injection-projection pairs is also a suitable framework for the construction of a universal homogeneous object (section 7.3). The latter is a domain in which every other domain (not exceeding a certain size) can be embedded. Once a universal object U is built, it is possible to represent the collection of domains as the domain FP(U) of finitary projections over U, and functors as continuous functions over FP(U). In this way, one obtains a rather handy poset theoretical framework for the solution of domain equations (section 7.4). If, moreover, FP(U) is itself (the image of a) projection, then projections can be used to give a model of second order typed λ-calculus (see exercise 7.4.8 and section 11.3).

A third approach to the solution of domain equations consists in working with concrete representations of domains like information systems, event structures, or concrete data structures (introduced in definitions 10.2.11, 12.3.3 and 14.1.1, respectively).

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Publisher: Cambridge University Press
Print publication year: 1998

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