Ana Gabriela Garis scite author profile

Ana Gabriela Garis

5Publications

56Citation Statements Received

84Citation Statements Given

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Affiliations

National University of San Luis

Publications

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Translating between Alloy specifications and UML class diagrams annotated with OCL

2013

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Model-Driven Engineering (MDE) is a Software Engineering approach based on model transformations at di↵erent abstraction levels. It prescribes the development of software by successively transforming models from abstract (specifications) to more concrete ones (code). Alloy is an increasingly popular lightweight formal specification language that supports automatic verification. Unfortunately, its widespread industrial adoption is hampered by the lack of an ecosystem of MDE tools, namely code generators. This paper presents a model transformation from Alloy to UML Class Diagrams annotated with OCL (UML+OCL), and shows how an existing transformation from UML+OCL to Alloy can be improved to handle dynamic issues. The proposed bidirectional transformation enables a smooth integration of Alloy in current MDE contexts, by allowing UML+OCL specifications to be transformed to Alloy for validation and verification, to correct and possibly refine them inside Alloy, and to translate them back to UML+OCL for sharing with stakeholders or to reuse current Model-Driven Architecture (MDA) tools to refine them towards code.

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Defining Patterns Using UML Profiles

Debnath¹,

Garis²,

Riesco³

et al. 2006

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Translating Alloy Specifications to UML Class Diagrams Annotated with OCL

Garis

Cunha

Riesco

2011

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Model-Driven Engineering (MDE) is a Software Engineering approach based on model transformations at different abstraction levels. It prescribes the development of software by successively transforming models from abstract (specifications) to more concrete ones (code). Alloy is an increasingly popular lightweight formal specification language that supports automatic verification. Unfortunately, its widespread industrial adoption is hampered by the lack of an ecosystem of MDE tools, namely code generators. This paper presents a model transformation between Alloy and UML Class Diagrams annotated with OCL. The proposed transformation enables current UML-based tools to also be applied to Alloy specifications, thus unleashing its potential for MDE.

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Specifying UML Protocol State Machines in Alloy

Garis

Paiva

Cunha

et al. 2012

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A UML Protocol State Machine (PSM) is a behavioral diagram for the specification of the external behavior of a class, interface or component. PSMs have been used in the software development process for different purposes, such as requirements analysis and testing. However, like other UML diagrams, they are often difficult to validate and verify, specially when combined with other artifacts, such as Object Constraint Language (OCL) specifications. This drawback can be overcome by application of an off-the-shelf formal method, namely one supporting automatic validation and verification. Among those, we have the increasingly popular Alloy, based on a simple relational flavor of firstorder logic. This paper presents a model transformation from PSMs, optionally complemented with OCL specifications, to Alloy. Not only it enables automatic verification and validation of PSMs, but also a smooth integration of Alloy in current software development practices.

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Especificación Del Patrón De Diseño Memento A Través De Un Perfil Uml

Cortez

Naveda

Garis

et al. 2018

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