129 research outputs found
Automatic modular abstractions for template numerical constraints
We propose a method for automatically generating abstract transformers for
static analysis by abstract interpretation. The method focuses on linear
constraints on programs operating on rational, real or floating-point variables
and containing linear assignments and tests. In addition to loop-free code, the
same method also applies for obtaining least fixed points as functions of the
precondition, which permits the analysis of loops and recursive functions. Our
algorithms are based on new quantifier elimination and symbolic manipulation
techniques. Given the specification of an abstract domain, and a program block,
our method automatically outputs an implementation of the corresponding
abstract transformer. It is thus a form of program transformation. The
motivation of our work is data-flow synchronous programming languages, used for
building control-command embedded systems, but it also applies to imperative
and functional programming
Step-Indexing: The Good, the Bad and the Ugly
Over the last decade, step-indices have been widely used for the
construction of operationally-based logical relations in the presence
of various kinds of recursion. We first give an argument that
step-indices, or something like them, seem to be required for defining
realizability relations between high-level source languages and
low-level targets, in the case that the low-level allows egregiously
intensional operations such as reflection or comparison of code
pointers. We then show how, much to our annoyance, step-indices also
seem to prevent us from exploiting such operations as aggressively as
we would like in proving program transformations
10351 Executive Summary -- Modelling, Controlling and Reasoning About State
From 29 August 2010 to 3 September 2010, the Dagstuhl Seminar 10351
``Modelling, Controlling and Reasoning About State \u27\u27
was held in Schloss Dagstuhl~--~Leibniz Center for
Informatics. 44 researchers, with interests and expertise in many
different aspects of modelling and reasoning about mutable state, met
to present their current work and discuss ongoing projects and open
problems. This executive summary provides a general overview of the goals of the
seminar and of the topics discussed
08061 Abstracts Collection -- Types, Logics and Semantics for State
From 3 February to 8 February 2008, the Dagstuhl Seminar 08061
``Types, Logics and Semantics for State\u27\u27 was held in the
International Conference and Research Center (IBFI), Schloss Dagstuhl.
During the seminar, several participants presented their current
research, and ongoing work and open problems were discussed. Abstracts
of the presentations given during the seminar as well as abstracts of
seminar results and ideas are put together in this paper. The first
section describes the seminar topics and goals in general. Links to
extended abstracts or full papers are provided, if available
10351 Abstracts Collection -- Modelling, Controlling and Reasoning About State
From 29 August 2010 to 3 September 2010, the Dagstuhl Seminar 10351
``Modelling, Controlling and Reasoning About State \u27\u27 was held in
Schloss Dagstuhl~--~Leibniz Center for Informatics. During the
seminar, several participants presented their current research, and
ongoing work and open problems were discussed. Abstracts of the
presentations given during the seminar as well as abstracts of seminar
results and ideas are put together in this paper. Links to extended
abstracts or full papers are provided, if available
08061 Executive Summary -- Types, Logics and Semantics for State
From 3 February to 8 February 2008, the Dagstuhl Seminar
08061 State" Conference and Research Center (IBFI), Schloss Dagstuhl.
45 researchers, with interests and expertise in many different aspects
of modelling and reasoning about mutable state, met to present their
current work and discuss ongoing projects and open problems
Abstract effects and proofrelevant logical relations. POPL
Abstract We give a denotational semantics for a region-based effect system that supports type abstraction in the sense that only externally visible effects need to be tracked: non-observable internal modifications, such as the reorganisation of a search tree or lazy initialisation, can count as 'pure' or 'read only'. This 'fictional purity' allows clients of a module to validate soundly more effect-based program equivalences than would be possible with previous semantics. Our semantics uses a novel variant of logical relations that maps types not merely to partial equivalence relations on values, as is commonly done, but rather to a proof-relevant generalisation thereof, namely setoids. The objects of a setoid establish that values inhabit semantic types, whilst its morphisms are understood as proofs of semantic equivalence. The transition to proof-relevance solves two awkward problems caused by naïve use of existential quantification in Kripke logical relations, namely failure of admissibility and spurious functional dependencies
Proof-relevant logical relations for name generation
Pitts and Stark's nu-calculus is a paradigmatic total language for studying the problem of contextual equivalence in higher-order languages with name generation. Models for the nu-calculus that validate basic equivalences concerning names may be constructed using functor categories or nominal sets, with a dynamic allocation monad used to model computations that may allocate fresh names. If recursion is added to the language and one attempts to adapt the models from (nominal) sets to(nominal)domains, however, the direct-style construction of the allocation monad no longer works. This issue has previously been addressed by using a monad that combines dynamic allocation with continuations, at some cost to abstraction. This paper presents a direct-style model of a nu-calculus-like language with recursion using the novel framework of proof-relevant logical relations, in which logical relations also contain objects (or proofs) demonstrating the equivalence of (the semantic counterparts of) programs. Apart from providing a fresh solution to an old problem, this work provides an accessible setting in which to introduce the use of proof-relevant logical relations, free of the additional complexities associated with their use for more sophisticated languages
A Model of Cooperative Threads
We develop a model of concurrent imperative programming with threads. We
focus on a small imperative language with cooperative threads which execute
without interruption until they terminate or explicitly yield control. We
define and study a trace-based denotational semantics for this language; this
semantics is fully abstract but mathematically elementary. We also give an
equational theory for the computational effects that underlie the language,
including thread spawning. We then analyze threads in terms of the free algebra
monad for this theory.Comment: 39 pages, 5 figure
A Lambda Term Representation Inspired by Linear Ordered Logic
We introduce a new nameless representation of lambda terms inspired by
ordered logic. At a lambda abstraction, number and relative position of all
occurrences of the bound variable are stored, and application carries the
additional information where to cut the variable context into function and
argument part. This way, complete information about free variable occurrence is
available at each subterm without requiring a traversal, and environments can
be kept exact such that they only assign values to variables that actually
occur in the associated term. Our approach avoids space leaks in interpreters
that build function closures.
In this article, we prove correctness of the new representation and present
an experimental evaluation of its performance in a proof checker for the
Edinburgh Logical Framework.
Keywords: representation of binders, explicit substitutions, ordered
contexts, space leaks, Logical Framework.Comment: In Proceedings LFMTP 2011, arXiv:1110.668
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