1,686 research outputs found
Elementary Proof of Strong Normalization for Atomic F
We give an elementary proof (in the sense that it is formalizable in Peano arithmetic) of the strong normalization of the atomic polymorphic calculus Fₐₜ (a predicative restriction of Girard’s system F)
Strong normalisation for applied lambda calculi
We consider the untyped lambda calculus with constructors and recursively
defined constants. We construct a domain-theoretic model such that any term not
denoting bottom is strongly normalising provided all its `stratified
approximations' are. From this we derive a general normalisation theorem for
applied typed lambda-calculi: If all constants have a total value, then all
typeable terms are strongly normalising. We apply this result to extensions of
G\"odel's system T and system F extended by various forms of bar recursion for
which strong normalisation was hitherto unknown.Comment: 14 pages, paper acceptet at electronic journal LMC
A Step-indexed Semantics of Imperative Objects
Step-indexed semantic interpretations of types were proposed as an
alternative to purely syntactic proofs of type safety using subject reduction.
The types are interpreted as sets of values indexed by the number of
computation steps for which these values are guaranteed to behave like proper
elements of the type. Building on work by Ahmed, Appel and others, we introduce
a step-indexed semantics for the imperative object calculus of Abadi and
Cardelli. Providing a semantic account of this calculus using more
`traditional', domain-theoretic approaches has proved challenging due to the
combination of dynamically allocated objects, higher-order store, and an
expressive type system. Here we show that, using step-indexing, one can
interpret a rich type discipline with object types, subtyping, recursive and
bounded quantified types in the presence of state
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