Publikation: Limits and difficulties in the design of under-approximation abstract domains
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2022
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BOUYER, Patricia, Hrsg., Lutz SCHRÖDER, Hrsg.. Foundations of Software Science and Computation Structures : 25th International Conference, FOSSACS 2022, Proceedings. Cham: Springer, 2022, S. 21-39. Lecture Notes in Computer Science. 13242. ISBN 978-3-030-99252-1. Verfügbar unter: doi: 10.1007/978-3-030-99253-8_2
Zusammenfassung
Static analyses are mostly designed to show the absence of bugs: if the analysis reports no alarms then the program won’t exhibit any unwanted behaviours. To this aim they manipulate over-approximations of program semantics and, inevitably, they often report some false alarms. Recently, O’Hearn proposed Incorrectness Logic, that is based on under-approximations, as a formal method to find bugs that only reports true alarms. In this paper we aim to answer one important question raised by O’Hearn, namely which role can Abstract Interpretation play for the development of under-approximate tools for bug catching. In principle, Abstract Interpretation based static analyses can be defined for computing over-approximations as well as under-approximations, but in practice, most techniques exploited the former while few attempts developed the latter. To show why it is difficult to design effective under-approximation abstract domains, we first propose the new definitions of non emptying functions and highly surjective function family and then we formally prove the limits of under-approximation analysis by showing the non existence of abstract domains able to approximate such functions in a non trivial way. Our results outline the limits of under-approximation Abstract Interpretation and clarify, for the first time, why over- and under- approximation analyzers exhibited such a different development.
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Fachgebiet (DDC)
004 Informatik
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Abstract Interpretation, Under-approximation, Abstract do- mains, Impossibility results
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25th International Conference on Foundations of Software Science and Computation Structures, FOSSACS 2022, 4. Apr. 2022 - 6. Apr. 2022, Munich, Germany
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ASCARI, Flavio, Roberto BRUNI, Roberta GORI, 2022. Limits and difficulties in the design of under-approximation abstract domains. 25th International Conference on Foundations of Software Science and Computation Structures, FOSSACS 2022. Munich, Germany, 4. Apr. 2022 - 6. Apr. 2022. In: BOUYER, Patricia, Hrsg., Lutz SCHRÖDER, Hrsg.. Foundations of Software Science and Computation Structures : 25th International Conference, FOSSACS 2022, Proceedings. Cham: Springer, 2022, S. 21-39. Lecture Notes in Computer Science. 13242. ISBN 978-3-030-99252-1. Verfügbar unter: doi: 10.1007/978-3-030-99253-8_2BibTex
@inproceedings{Ascari2022-03Limit-76128,
title={Limits and difficulties in the design of under-approximation abstract domains},
year={2022},
doi={10.1007/978-3-030-99253-8_2},
number={13242},
isbn={978-3-030-99252-1},
address={Cham},
publisher={Springer},
series={Lecture Notes in Computer Science},
booktitle={Foundations of Software Science and Computation Structures : 25th International Conference, FOSSACS 2022, Proceedings},
pages={21--39},
editor={Bouyer, Patricia and Schröder, Lutz},
author={Ascari, Flavio and Bruni, Roberto and Gori, Roberta}
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<dcterms:abstract>Static analyses are mostly designed to show the absence of bugs: if the analysis reports no alarms then the program won’t exhibit any unwanted behaviours. To this aim they manipulate over-approximations of program semantics and, inevitably, they often report some false alarms. Recently, O’Hearn proposed Incorrectness Logic, that is based on under-approximations, as a formal method to find bugs that only reports true alarms. In this paper we aim to answer one important question raised by O’Hearn, namely which role can Abstract Interpretation play for the development of under-approximate tools for bug catching. In principle, Abstract Interpretation based static analyses can be defined for computing over-approximations as well as under-approximations, but in practice, most techniques exploited the former while few attempts developed the latter. To show why it is difficult to design effective under-approximation abstract domains, we first propose the new definitions of non emptying functions and highly surjective function family and then we formally prove the limits of under-approximation analysis by showing the non existence of abstract domains able to approximate such functions in a non trivial way. Our results outline the limits of under-approximation Abstract Interpretation and clarify, for the first time, why over- and under- approximation analyzers exhibited such a different development.</dcterms:abstract>
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