Modeling history to analyze software evolution

Gîrba, Tudor; Ducasse, Sté́phane

doi:10.1002/smr.325

Cited by 71 publications

(53 citation statements)

References 47 publications

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“…15 During the SLR, several history-aware metamodels were found to explicitly address the version history: Ring (Gȯmez and Ducasse 2012), Hismo (Gîrba and Ducasse 2006;Gȯmez et al 2009), FAMIX-based RHDB code model (Antoniol et al 2005) and FAMIX-based ArchEvoDB schema . If practitioners and researchers conduct reverse engineering in which history analysis is taken into account, selecting a history-aware metamodel, especially the RHDB code model and the ArchEvoDB schema, may be better since these are defined as extensions of FAMIX, which is a widely accepted popular metamodel.…”

Section: Classification Resultsmentioning

confidence: 99%

ProMeTA: a taxonomy for program metamodels in program reverse engineering

2018

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To support program comprehension, maintenance, and evolution, metamodels are frequently used during program reverse engineering activities to describe and analyze constituents of a program and their relations. Reverse engineering tools often define their own metamodels according to the intended purposes and features. Although each metamodel has its own advantages, its limitations may be addressed by other metamodels. Existing works have evaluated and compared metamodels and tools, but none have considered all the possible characteristics and limitations to provide a comprehensive guideline for classifying, comparing, reusing, and extending program metamodels. To aid practitioners and researchers in classifying, comparing, reusing, and extending program metamodels and their corresponding reverse engineering tools according to the intended goals, we establish a conceptual framework with definitions of program metamodels and related concepts. We confirmed that any reverse engineering activity can be clearly described as a pattern based on the framework from the viewpoint of program metamodels. Then the framework is used (2018) 23:2323-2358 to provide a comprehensive taxonomy, named Program Metamodel TAxonomy (ProMeTA), which incorporates newly identified characteristics into those stated in previous works, which were identified via a systematic literature review (SLR) on program metamodels, while keeping the orthogonality of the entire taxonomy. Additionally, we validate the taxonomy in terms of its orthogonality and usefulness through the classification of popular metamodels.Empir Software Eng

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Section: Classification Resultsmentioning

confidence: 99%

ProMeTA: a taxonomy for program metamodels in program reverse engineering

2018

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“…Ring stores information about the structural entities (i.e., packages, classes, interfaces, fields and methods) declared in the source code and information about how they are related (i.e., inheritance, containment). Similar to the HISMO meta-model [10], each structural entity has a reference to the version of the software in which it was defined.…”

Section: History Representationmentioning

confidence: 99%

A logic foundation for a general-purpose history querying tool

Stevens

Roover

Noguera

et al. 2014

Science of Computer Programming

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Version control systems (VCS) have become indispensable software development tools. The version snapshots they store to provide support for change coordination and release management, effectively track the evolution of the versioned software and its development process. Despite this wealth of historical information, it has only been leveraged by tools that are dedicated to a specific task such as empirical validation of software engineering practices or fault prediction. General-purpose tool support for reasoning about the historical information stored in a version control system is limited. This paper provides a comprehensive description of a logic-based, general-purpose history query tool called Absinthe. Absinthe supports querying versioned Smalltalk system using logic queries in which quantified regular path expressions are embedded. These expressions lend themselves to specifying the properties that each individual version in a sequence of successive software versions ought to exhibit. To demonstrate the general-purpose nature of our history query tool, we use it to verify development process constraints, to identify temporal bad smells and to answer questions that developers commonly ask. Finally, we compare a query written in Absinthe to an equivalent one written in Smalltalk.

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“…Time warp is a prototype extension of SOUL that has a similar goal as ABSINTHE. It offers an ad-hoc specification language for quantifying over instances of HISMO [16] models. While this work has inspired the development of the approach detailed in this paper, ABSINTHE uses a custom repository representation for scalability reasons and offers a more structured approach to quantify over its information.…”

Section: Motivating Example Revisitedmentioning

confidence: 99%

Reasoning over the Evolution of Source Code Using Quantified Regular Path Expressions

Kellens

Roover

Noguera

et al. 2011

2011 18th Working Conference on Reverse Engineering

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Abstract-Version control systems (VCS) have become indispensable to develop software. Next to their immediate advantages, they also offer information about the evolution of software and its development process. Despite this wealth of information, it has only been leveraged by tools that are dedicated to a specific software engineering task such as predicting bugs or identifying hotspots. General-purpose tool support for reasoning about the information contained in a version control system is limited. In this paper, we introduce the logic-based program query language ABSINTHE. It supports querying versioned software systems using logic queries in which quantified regular path expressions are embedded. These expressions lend themselves to specifying the properties that each individual version in a sequence of successive software versions ought to exhibit.

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Modeling history to analyze software evolution

Cited by 71 publications

References 47 publications

ProMeTA: a taxonomy for program metamodels in program reverse engineering

ProMeTA: a taxonomy for program metamodels in program reverse engineering

A logic foundation for a general-purpose history querying tool

Reasoning over the Evolution of Source Code Using Quantified Regular Path Expressions

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