In the abstract interpretation framework, completeness represents an optimal simulation by the abstract operators over the behavior of the concrete operators. This corresponds to an ideal (often rare) feature where there is no loss of information accumulated in abstract computations with respect to the properties encoded by the underlying abstract domains. In this thesis, we deal with the opposite notion of completeness in abstract interpretation, that is, incompleteness, applied to two different contexts: static program analysis and formal languages over the Chomsky's hierarchy. In static program analysis, completeness is a very rare condition to be satisfied in practice and only the straightforward abstractions are complete for all p...
This paper introduces a notion of full abstraction for equational languages under which each languag...
Completeness is an important, but rather uncommon, property of abstract interpretations, ensuring th...
AbstractThis paper introduces a notion of full abstraction for equational languages under which each...
Imprecision is inherent in any decidable (sound) approximation of undecidable program properties. In...
Completeness is an ideal, although uncommon, feature of abstract interpretations, formalizing the in...
We want to prove that a static analysis of a given program is complete, namely, no imprecision arise...
Completeness in abstract interpretation is an ideal and rare situation where the abstract semantics ...
We introduce the notion of local completeness in abstract interpretation and define a logic for prov...
While soundness captures an essential requirement of the intrinsic approximation of any static analy...
We want to prove that a static analysis of a given program is com-plete, namely, no imprecision aris...
Abstract interpretation is very useful for program analysis, because it provides a (sound) over-appr...
Completeness is a desirable, although uncommon, property of abstract interpretations, formalizing th...
Completeness is a desirable, although uncommon, property of abstract interpretations, formalizing th...
In this paper we study the relation between the lack of completeness in abstract interpretation of m...
Completeness is a precious and rather uncommon property of abstract interpretations, which depends o...
This paper introduces a notion of full abstraction for equational languages under which each languag...
Completeness is an important, but rather uncommon, property of abstract interpretations, ensuring th...
AbstractThis paper introduces a notion of full abstraction for equational languages under which each...
Imprecision is inherent in any decidable (sound) approximation of undecidable program properties. In...
Completeness is an ideal, although uncommon, feature of abstract interpretations, formalizing the in...
We want to prove that a static analysis of a given program is complete, namely, no imprecision arise...
Completeness in abstract interpretation is an ideal and rare situation where the abstract semantics ...
We introduce the notion of local completeness in abstract interpretation and define a logic for prov...
While soundness captures an essential requirement of the intrinsic approximation of any static analy...
We want to prove that a static analysis of a given program is com-plete, namely, no imprecision aris...
Abstract interpretation is very useful for program analysis, because it provides a (sound) over-appr...
Completeness is a desirable, although uncommon, property of abstract interpretations, formalizing th...
Completeness is a desirable, although uncommon, property of abstract interpretations, formalizing th...
In this paper we study the relation between the lack of completeness in abstract interpretation of m...
Completeness is a precious and rather uncommon property of abstract interpretations, which depends o...
This paper introduces a notion of full abstraction for equational languages under which each languag...
Completeness is an important, but rather uncommon, property of abstract interpretations, ensuring th...
AbstractThis paper introduces a notion of full abstraction for equational languages under which each...