Recommendations for improving the usability of formal methods for product lines

Atlee, Joanne M.; Beidu, Sandy; Day, Nancy A.; Faghih, Fathiyeh; Shaker, Pourya

doi:10.1109/formalise.2013.6612276

Cited by 13 publications

(13 citation statements)

References 39 publications

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“…In particular, we presented a basic example to illustrate the use of mCRL2's parametrized data language to model and select valid product configurations, in the presence of feature attributes and quantitative constraints, and to model and check the behavior of valid products. This is in line with the analysis recommendations from [3] to "adopt and extend state-of-the-art analysis tools" and to "examine [s] only valid product variants". We also hinted at the use of model reduction.…”

Section: Introductionsupporting

confidence: 58%

“…Using the example from [5], we show how its behavioral model can be modularized (in a feature-oriented fashion) into components, with interfaces that allow a driver process to glue them back together on the fly. This is a powerful abstraction technique that allows mCRL2 to concentrate on the relevant components (features) for the specific property under scrutiny, and in accordance with the modeling recommendation from [3] to "support (feature) modularity" in order "to visualize and (manually or automatically) analyze feature combinations corresponding to products of the product line".…”

Section: Introductionmentioning

confidence: 99%

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Towards Modular Verification of Software Product Lines with mCRL2

Beek

Vink

2014

Leveraging Applications of Formal Methods, Verification and Validation. Technologies for Mastering Change

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Abstract. We introduce by means of an example a modular verification technique for analyzing the behavior of software product lines using the mCRL2 toolset. Based on feature-driven borders, we divide a behavioral model of a product line into a set of separate components with interfaces and a driver process to coordinate them. Abstracting from irrelevant components, we verify properties over a smaller behavioral model, which not only simplifies the model checking task but also makes the result amenable for reuse. This is a fundamental step forward for the approach to scale up to industrial-size product lines.

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Section: Introductionsupporting

confidence: 58%

Section: Introductionmentioning

confidence: 99%

Towards Modular Verification of Software Product Lines with mCRL2

Beek

Vink

2014

Leveraging Applications of Formal Methods, Verification and Validation. Technologies for Mastering Change

View full text Add to dashboard Cite

show abstract

“…In particular, we presented a basic example to illustrate the use of mCRL2's data language to model and select valid product configurations, in the presence of feature attributes and quantitative constraints, and to model and check the behavior of valid products. This is in line with the analysis recommendations from [5] to "adopt and extend state-of-the-art analysis tools" and to "examine[s] only valid product variants". In Sect.…”

Section: Using Mcrl2 For Product Family Analysissupporting

confidence: 58%

“…Exploiting the same example from [8], we showed how its behavioral model can be modularized (in a feature-oriented fashion) into components, with interfaces that allow a driver process to glue them back together on the fly. This is a powerful abstraction technique that allows mCRL2 to concentrate on the relevant components (features) for a specific property under scrutiny, and in accordance with the modeling recommendation from [5] to "support (feature) modularity" in order "to visualize and (manually or automatically) analyze feature combinations corresponding to products of the product line". In Sect.…”

Section: Using Mcrl2 For Product Family Analysismentioning

confidence: 99%

Software product line analysis with mCRL2

Beek

Vink

2014

Proceedings of the 18th International Software Product Line Conference: Companion Volume for Workshops, Demonstrations and Tool

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The mCRL2 language and supporting software provide a stateof-the-art tool suite for the verification of distributed systems. In this paper, we present the general principles, extrapolated from [7,8], which make us believe that mCRL2 can also be used for behavioral variability analysis of product families. The mCRL2 data language allows to smoothly deal with feature sets and attributes, its process language is sufficiently rich to model feature selection, as well as product behavior based on an FTS-like semantics. Because of the feature-orientation, our modeling strategy allows a natural refactoring of the semantic model of a product family into a parallel composition of components that reflects coherent sets of features. This opens the way for dedicated abstraction and reduction techniques that strengthen the prospect of a scalable verification approach to software product lines. In this paper, we sketch how to model product families in mCRL2 and how to apply a modular verification method, preparing the ground to further assess the scalability of our approach, in particular regarding model checking.

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“…?m is equivalent to !m and ?m at the same time instant, and a pair of enclose the events that happen at the same time. 3 A general ordering is a binary relation between events that describes that an event must occur before another in a trace. at a single global time (SGT), or (b) each lifeline does it at particular independent local times (ILT).…”

Section: Different Interpretationsmentioning

confidence: 99%

Flexible modular formalization of UML sequence diagrams

Baresi

Kallehbasti

Rossi

2014

Proceedings of the 2nd FME Workshop on Formal Methods in Software Engineering

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UML Sequence Diagrams are one of the most commonly used type of UML diagrams in practice. Their semantics is often considered to be straightforward, but a more detailed analysis reveals diverse interpretations. These different choices must be properly supported by verification tools. This paper describes a formal framework for capturing semantic choices in a precise and modular way. The user is then able to select the semantics of interest, mix different interpretations, and analyze diagrams according to the chosen solution. This solution is supported by Corretto, our UML verification environment, to allow the user to play with different semantics and prove properties on Sequence Diagrams, accordingly.

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Recommendations for improving the usability of formal methods for product lines

Cited by 13 publications

References 39 publications

Towards Modular Verification of Software Product Lines with mCRL2

Towards Modular Verification of Software Product Lines with mCRL2

Software product line analysis with mCRL2

Flexible modular formalization of UML sequence diagrams

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