This book is an introduction to graph transformation as a foundation to model-based software engineering at the level of both individual systems and domain-specific modelling languages.The first part of the book presents the fundamentals in a precise, yet largely informal way. Besides serving as prerequisite for describing the applications in the second part, it also provides a comprehensive and systematic survey of the concepts, notations and techniques of graph transformation. The second part presents and discusses a range of applications to both model-based software engineering and domain-specific language engineering. The variety of these applications demonstrates how broadly graphs and graph transformations can be used to model, analyse and implement complex software systems and languages. This is the first textbook that explains the most commonly used concepts, notations, techniques and applications of graph transformation without focusing on one particularmathematical representation or implementation approach. Emphasising the research and engineering methodologies used, it will be a valuable resource for graduate students, practitioners and researchers in software engineering, foundations of programming and formal methods.
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This book is an introduction to graph transformation as a foundation to model-based software engineering at the level of both individual systems and domain-specific modelling languages.The first part of the book presents the fundamentals in a precise, yet largely informal way.
Les mer
Part I, Graph Transformation.- Graphs for Modeling and Specification.- Graph Transformation Concepts.- Beyond Individual Rules: Usage Scenarios and Control Structures.- Analysis and Improvement of Graph Transformation Systems.- Part II, Graph Transformation in Software Engineering.- Detecting Inconsistent Requirements in a Use Case-Driven Approach.- Service Specification and Matching.- Model-Based Testing.- Reverse Engineering: Inferring Visual Contracts from Java Programs.- Stochastic Analysis of Dynamic Software Architectures.- Advanced Modeling Language Definition: Integrating Meta-modeling with Graph Transformation.- Improving Models and Understanding Model Changes.- Translating and Synchronizing Models.
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This book is an introduction to graph transformation as a foundation to model-based software engineering at the level of both individual systems and domain-specific modelling languages.The first part of the book presents the fundamentals in a precise, yet largely informal way. Besides serving as prerequisite for describing the applications in the second part, it also provides a comprehensive and systematic survey of the concepts, notations and techniques of graph transformation. The second part presents and discusses a range of applications to both model-based software engineering and domain-specific language engineering. The variety of these applications demonstrates how broadly graphs and graph transformations can be used to model, analyse and implement complex software systems and languages.This is the first textbook that explains the most commonly used concepts, notations, techniques and applications of graph transformation without focusing on one particular mathematical representation or implementation approach. Emphasising the research and engineering methodologies used, it will be a valuable resource for graduate students, practitioners and researchers in software engineering, foundations of programming and formal methods.
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“This book … is the first comprehensive and systematic presentation of graph-based modelling and applica­tions to the practice of software engineering. It can be of use in teaching, to present the foundations of soft­ware modelling and verification. It is also a reference book for researchers who are active in software mod­elling. … I fully share the authors’ point that graph transformations are an extremely powerful and tremen­dously useful tool that can empower software engineers and help them to develop better and higher quality software. This book is a decisive step in this direction.” [Garlo Ghezzi, Politecnico di Milano] “I strongly recommend this book to researchers who want to learn about software modelling, and to any senior undergraduate and graduate students who want to be equipped with foundational knowledge and tools to be able to build high-quality, safe software systems.” [Marsha Chechik, University of Toronto] “There is a big gap between problems and available theoretical solutions and this book provides an excellent reference guide to help researchers, educators, students, and practitioners to address and solve a large diver­sity of relevant problems.Many different software engineering artefacts, including design models, deploy­ment topologies, and devel­opment processes, that can be rendered as graphs and manipulated through graph transformations, could benefit from the mature theory developed over the last thirty years. Many solutions have been presented at conferences and workshops, but the necessary coherent collection of their applica­tions to software engi­neering problems was missing. … [The authors] did a great job in collecting, harmo­nising, and presenting all the different findings and solutions in this book. We particularly appreciate the mix of rigour and formality along with proper context and concrete examples.We are sure that this book will quickly become an essential reference for those interested in the formal un­derpinnings of graph-based soft­ware engineering notations and artefacts, including those interested in ex­ploiting the results presented here to develop original solutions.” [Gregor Engels, Universität Paderborn; Luciano Baresi, Politecnico di Milano; Mauro Pezzé, Università della Svizzera italiana]“[This book] is everything one could wish it to be. Part I presents the necessary background on a sufficiently formal level to be accessible to anyone with a moderate knowledge of discrete mathematics, while at the same time illustrating all presented concepts using recurring, small-scale examples. More importantly still, Part II presents example after example of how all this can indeed be used across the board in all phases of software engineering, from requirements gathering through analysis, design and specification to testing. Not surprisingly, given the close proximity of graphs to UML-style models, special attention is paid to concepts of model-driven engineering.It is a sign of the broad experience of the authors that each and every chapter of Part II is actually based on published research, and ends with extensive pointers to the research literature. Though the book is not meant as a survey, and makes no claims to completeness, it does provide a very good entrance.[T]he potential target audience of the book is diverse. It can be used in academic teaching as the basis for any of a number of courses, complemented with projects to be carried out in any of the topics of Part II; it can act as a great source of reference; but most importantly, it can serve as a means by which researchers and (research-minded) practitioners in software engineering can get to know graph transformation. … All in all, there is little doubt in my mind that in years to come, this book will be seen to stand out as an authorita­tive, go-to source of information, indispensable on any (physical or digital) bookshelf.” [Arend Rensink, University of Twente]
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Introduces graph transformation as a fundamental tool to enable model-based development Addresses both the fundamental concepts and the techniques Useful for graduate students in the areas of software engineering and foundations of programming, and practitioners and researchers in these domains
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Produktdetaljer

ISBN
9783030439187
Publisert
2021-05-14
Utgiver
Vendor
Springer Nature Switzerland AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Graduate, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Om bidragsyterne

Prof. Dr.-Ing. Reiko Heckel is a member of the School of Informatics at the University of Leicester. Prof. Dr.-Ing. Gabriele Taentzer is a member of the Faculty of Mathematics and Computer Science at Philipps-Universität Marburg. The authors' research is in Graph Transformation, its foundations and applications to System Modelling and Analysis, Model-Based Software Development and Language Engineering.