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Strong normalisation in two Pure Pattern Type Systems
Published online by Cambridge University Press: 01 June 2008
Abstract
Pure Pattern Type Systems (P2TS) combine the frameworks and capabilities of rewriting and λ-calculus within a unified setting. Their type systems, which are adapted from Barendregt's λ-cube, are especially interesting from a logical point of view. Until now, strong normalisation, which is an essential property for logical soundness, has only been conjectured: in this paper, we give a positive answer for the simply-typed system and the dependently-typed system.
The proof is based on a translation of terms and types from P2TS into the λ-calculus. First, we deal with untyped terms, ensuring that reductions are faithfully mimicked in the λ-calculus. For this, we rely on an original encoding of the pattern matching capability of P2TS into the System Fω.
Then we show how to translate types: the expressive power of System Fω is needed in order to fully reproduce the original typing judgments of P2TS. We prove that the encoding is correct with respect to reductions and typing, and we conclude with the strong normalisation of simply-typed P2TS terms. The strong normalisation with dependent types is in turn obtained by an intermediate translation into simply-typed terms.
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- Mathematical Structures in Computer Science , Volume 18 , Special Issue 3: Rewriting calculi, higher-order reductions and patterns , June 2008 , pp. 431 - 465
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- Copyright © Cambridge University Press 2008