Theory and Practice of Model Transformations Third International Conference, ICMT 2010, Malaga, Spain, June 28-July 2, 2010. Proceedings / [electronic resource] :
edited by Laurence Tratt, Martin Gogolla.
- 1st ed. 2010.
- X, 278 p. 95 illus. online resource.
- Programming and Software Engineering, 6142 2945-9168 ; .
- Programming and Software Engineering, 6142 .
Invited Paper -- Search Computing: A Model-Driven Perspective -- Research Papers -- Domain-Specific Composition of Model Deltas -- Temporal Model-Based Diagnostics Generation for HVAC Control Systems -- Synthesis of OCL Pre-conditions for Graph Transformation Rules -- From State- to Delta-Based Bidirectional Model Transformations -- A Constructive Approach to Testing Model Transformations -- From Sequence Diagrams to State Machines by Graph Transformation -- Safe Composition of Transformations -- Towards Incremental Execution of ATL Transformations -- Constructing and Navigating Non-invasive Model Decorations -- Model-to-Model Transformations By Demonstration -- Implementing Business Process Recovery Patterns through QVT Transformations -- Model Migration with Epsilon Flock -- Exceptional Transformations -- Improving Higher-Order Transformations Support in ATL -- Towards a Rewriting Logic Semantics for ATL -- Metamodel Matching Based on Planar Graph Edit Distance -- Surviving the Heterogeneity Jungle with Composite Mapping Operators.
Model transformations are the glue that tie modelling activities together. If you've used modelling in anger then, whether you know it or not, you've used model transformations. They come in all shapes and sizes from moving models between di?erent tools to generating implementations. Model transformations have humble beginnings-at one point, not long ago, it was said by many 'in the know' that the way forward in model transformations was to use XSLT. That this idea now raises a wry smile shows how far the model transformation community has come in a short time. Where once model transformations were hacked together in a variety of unsuitable languages, we now have a number of powerful, dedicated languages and theories at our disposal. Since 2008, the ICMT conference series has played a huge part in advancing the subject, and this third edition was no di?erent. The theories and languages presented at ICMT have allowed principled model transformations to play an ever greater part in real systems. Of course there is still much more to do: we need our model transformations, languages, and theories to scale further, allow greater expressivity, be more ?exible, and aid reusability; and we lack empirically backed studies of model transformations in use. Doubtless you can think of other gaps. Yet, though some real-world challenges lie just beyond our reach,eachyearseesonce-dauntingproblemsconquered.Muchofthatprogressis nowdriven byICMT, andthis year'sedition showedhow model transformations are increasingly being used in previously unfamiliar areas.
9783642136887
10.1007/978-3-642-13688-7 doi
Software engineering.
Computer science.
Compilers (Computer programs).
Computer networks .
Computer programming.
Machine theory.
Software Engineering.
Computer Science Logic and Foundations of Programming.
Compilers and Interpreters.
Computer Communication Networks.
Programming Techniques.
Formal Languages and Automata Theory.
QA76.758
005.1
Invited Paper -- Search Computing: A Model-Driven Perspective -- Research Papers -- Domain-Specific Composition of Model Deltas -- Temporal Model-Based Diagnostics Generation for HVAC Control Systems -- Synthesis of OCL Pre-conditions for Graph Transformation Rules -- From State- to Delta-Based Bidirectional Model Transformations -- A Constructive Approach to Testing Model Transformations -- From Sequence Diagrams to State Machines by Graph Transformation -- Safe Composition of Transformations -- Towards Incremental Execution of ATL Transformations -- Constructing and Navigating Non-invasive Model Decorations -- Model-to-Model Transformations By Demonstration -- Implementing Business Process Recovery Patterns through QVT Transformations -- Model Migration with Epsilon Flock -- Exceptional Transformations -- Improving Higher-Order Transformations Support in ATL -- Towards a Rewriting Logic Semantics for ATL -- Metamodel Matching Based on Planar Graph Edit Distance -- Surviving the Heterogeneity Jungle with Composite Mapping Operators.
Model transformations are the glue that tie modelling activities together. If you've used modelling in anger then, whether you know it or not, you've used model transformations. They come in all shapes and sizes from moving models between di?erent tools to generating implementations. Model transformations have humble beginnings-at one point, not long ago, it was said by many 'in the know' that the way forward in model transformations was to use XSLT. That this idea now raises a wry smile shows how far the model transformation community has come in a short time. Where once model transformations were hacked together in a variety of unsuitable languages, we now have a number of powerful, dedicated languages and theories at our disposal. Since 2008, the ICMT conference series has played a huge part in advancing the subject, and this third edition was no di?erent. The theories and languages presented at ICMT have allowed principled model transformations to play an ever greater part in real systems. Of course there is still much more to do: we need our model transformations, languages, and theories to scale further, allow greater expressivity, be more ?exible, and aid reusability; and we lack empirically backed studies of model transformations in use. Doubtless you can think of other gaps. Yet, though some real-world challenges lie just beyond our reach,eachyearseesonce-dauntingproblemsconquered.Muchofthatprogressis nowdriven byICMT, andthis year'sedition showedhow model transformations are increasingly being used in previously unfamiliar areas.
9783642136887
10.1007/978-3-642-13688-7 doi
Software engineering.
Computer science.
Compilers (Computer programs).
Computer networks .
Computer programming.
Machine theory.
Software Engineering.
Computer Science Logic and Foundations of Programming.
Compilers and Interpreters.
Computer Communication Networks.
Programming Techniques.
Formal Languages and Automata Theory.
QA76.758
005.1