Axiomatic Domain Theory in Categories of Partial MapsAxiomatic categorical domain theory is crucial for understanding the meaning of programs and reasoning about them. This book is the first systematic account of the subject and studies mathematical structures suitable for modelling functional programming languages in an axiomatic (i.e. abstract) setting. In particular, the author develops theories of partiality and recursive types and applies them to the study of the metalanguage FPC; for example, enriched categorical models of the FPC are defined. Furthermore, FPC is considered as a programming language with a call-by-value operational semantics and a denotational semantics defined on top of a categorical model. To conclude, for an axiomatisation of absolute non-trivial domain-theoretic models of FPC, operational and denotational semantics are related by means of computational soundness and adequacy results. To make the book reasonably self-contained, the author includes an introduction to enriched category theory. |
Contents
III | 1 |
VI | 2 |
VII | 3 |
IX | 4 |
X | 6 |
XI | 7 |
XII | 9 |
XIII | 10 |
XLV | 115 |
XLVI | 117 |
XLVII | 120 |
XLVIII | 126 |
XLIX | 130 |
L | 132 |
LI | 133 |
LIII | 137 |
XIV | 11 |
XV | 12 |
XVII | 17 |
XIX | 20 |
XX | 22 |
XXII | 29 |
XXIII | 33 |
XXIV | 34 |
XXVI | 39 |
XXVII | 48 |
XXVIII | 52 |
XXX | 55 |
XXXI | 58 |
XXXII | 59 |
XXXIII | 62 |
XXXIV | 65 |
XXXV | 71 |
XXXVI | 72 |
XXXVII | 73 |
XXXVIII | 77 |
XL | 85 |
XLI | 90 |
XLII | 100 |
XLIII | 106 |
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Common terms and phrases
A₁ admissible monos algebraically compact categories algebraically complete AXIOM B(FA bifunctor categories of domains category of partial category of total Category Theory characterisation closure coalgebra colimiting in pK colimits of w-chains composition Computer coproducts Corollary Cpo-algebraic completeness Cpo-enriched Cpo-functor D₁ defined Definition denotational semantics diagram domain structure domain theory domain-theoretic models e₁ endofunctor exponentials F-Alg F(Fix Fix F fixed-point operator fk+1 follows II₁ inductive types initial algebra interpretation intro(v Lemma Limit/Colimit Coincidence Theorem lubs of w-chains mk+1 model of FPC monotone morphism natural isomorphism natural transformation operational semantics order-enriched parameterised V-algebraically partial cartesian closed partial maps pCpo pK(A Poset Poset-category Poset-enriched PROOF properties pullback recursive types representation right adjoint subcategory symmetric T₁ T₂ terminal object total maps V-CAT V-category V-functor F V-natural v₁ w-chains of embeddings zero object µT.T
Popular passages
Page 226 - M. Barr. Algebraically compact functors. Journal of Pure and Applied Algebra, 82:211-231, 1992.