Technical Report of the LACLWe extend Meyer and Ritchie's Loop language with higher-order procedures and procedural variables and we show that the resulting programming language (called Loopω) is a natural imperative counterpart of Gödel System T. The argument is two-fold: 1. we define a translation of the Loopω language into System T and we prove that this translation actually provides a lock-step simulation, 2. using a converse translation, we show that Loopω is expressive enough to encode any term of System T. Moreover, we define the “iteration rank” of a Loopω program, which corresponds to the classical notion of “recursion rank” in System T, and we show that both trans- lations preserve ranks. Two applications of these results in the are...
Given a programming language operating on stacks, we introduce a syntactical measure mu such that, a...
We present abstract acceleration techniques for computing loop invariants for numerical programs wit...
This work explores an unexpected application of Implicit Computational Complexity (ICC) to paralleli...
We extend Meyer and Ritchie’s Loop language with higher-order procedures and procedural variables an...
AbstractTwo restricted imperative programming languages are considered: One is a slight modification...
50 pagesRelying on the formulae-as-types paradigm for classical logic, we define a program logic for...
International audiencePolynomial interpretations and their generalizations like quasi-interpretation...
Polynomial interpretations and their generalizations like quasi-interpretations have been used in th...
Technical Report of the LACLWe formally specified the type system and operational semantics of Loopω ...
We introduce an imperative programming language equipped with variables of higher types. Fragments o...
The syntactic theories of control and state are conservative extensions of the λv-calculus for equat...
Technical report of the LACL, TR-LACL-2009-8This document describes the implementation in SML of the...
We argue that there is a link between implicit computational complexity theory and reversible comput...
International audienceFormal systems that describe computations over syntactic structures occur freq...
We present abstract acceleration techniques for computing loop in-variants for numerical programs wi...
Given a programming language operating on stacks, we introduce a syntactical measure mu such that, a...
We present abstract acceleration techniques for computing loop invariants for numerical programs wit...
This work explores an unexpected application of Implicit Computational Complexity (ICC) to paralleli...
We extend Meyer and Ritchie’s Loop language with higher-order procedures and procedural variables an...
AbstractTwo restricted imperative programming languages are considered: One is a slight modification...
50 pagesRelying on the formulae-as-types paradigm for classical logic, we define a program logic for...
International audiencePolynomial interpretations and their generalizations like quasi-interpretation...
Polynomial interpretations and their generalizations like quasi-interpretations have been used in th...
Technical Report of the LACLWe formally specified the type system and operational semantics of Loopω ...
We introduce an imperative programming language equipped with variables of higher types. Fragments o...
The syntactic theories of control and state are conservative extensions of the λv-calculus for equat...
Technical report of the LACL, TR-LACL-2009-8This document describes the implementation in SML of the...
We argue that there is a link between implicit computational complexity theory and reversible comput...
International audienceFormal systems that describe computations over syntactic structures occur freq...
We present abstract acceleration techniques for computing loop in-variants for numerical programs wi...
Given a programming language operating on stacks, we introduce a syntactical measure mu such that, a...
We present abstract acceleration techniques for computing loop invariants for numerical programs wit...
This work explores an unexpected application of Implicit Computational Complexity (ICC) to paralleli...