(Mega)modeling Software Language Artifacts
Description
Modern software is typically made of heterogeneous sets of software artifacts
including for instance databases, programs, transformations, grammars, models and
metamodels, compilers, interpreters, formats, ontologies, frameworks, APIs, schemas,
configuration files, makefiles, etc. In practice particular languages, tools,
implementations, and standards are used such as SQL DDL, Saxon, XLST, Java,
Hibernate, XSD, OWL, DOM, Antlr, UML, XMI, Ecore, Awk, and so on. In the
absence of a conceptual framework it is difficult to understand the relationships
between these software artifacts, if any. The goal of this tutorial is to provide such a
framework, showing that the similarity and relationships between techniques can be
modeled at a high level of abstraction, and even more importantly that recurring
patterns occur in such models. Some of these patterns, for instance those involving
“bridges” between technologies, would be really difficult to grasp without a proper
conceptualization. As a result software engineers and researchers usually find it hard
to understand the intricacies of technologies that are out of their area of expertise and
it is more than likely that they do not realize the analogies that exist between
heterogeneous technologies. This tutorial aims to unveil these recurring patterns and
to show participants coming from different horizons how to model the technologies
they design or work with in an uniform way and how to situate them into the overall
software language landscape.
In the first part of the tutorial, the notions of software languages and technical
spaces are briefly presented with a special emphasis on their unifying character. Then
fundamental relations such RepresentationOf and ElementOf are introduced forming
the basis of a (mega)modeling framework. Recurrent patterns based on these relations
are then presented, allowing to describe for instance the “conformance” relation
between let’s say a program and a grammar, an xml file and an xsd schema, or an uml
model and its metamodel, etc. More complex patterns such as bridges between
technologies (e.g. XML <==> Relational, OO <==> XML, etc.) are defined following
the same approach. Though this notion of bridges seems easy to grasp informally at
the first sight, it often leads to a rather large and complex set of technologies that are
hard to understand and compare without an appropriate framework.
In the second part of the tutorial, the use of (mega)modeling framework is
illustrated through its application in three different technical spaces: Grammarware,
Modelware and Ontologyware. Concrete examples of various degree of complexity
are provided in each case, with again an emphasis on similarities between technical
spaces. The hope of this approach is that it should be possible for someone with some
knowledge in technical spaces (let’s say grammarware) to improve significantly his or
her comprehension about another space (let’s say ontologyware), and this by virtue of
analogy. It is our believe that the (mega)modeling approach, by raising the level of
abstraction and focusing on essential software language concepts, enables both to
better understand complex structures involving many heterogeneous software
artifacts, but also to better apprehend new technologies coming from other spaces.
Author bios
Jean-Marie Favre is a software anthropologist and a software language
archeologist. He is principal scientist at One Tree Technologies. He has published
numerous papers and coedited a book (in French) Beyond MDA: Model Driven
Engineering. He has given tutorials and keynotes in more than dozen of
international events and summer schools and has organized various national and
international events. His research interests include software language engineering,
software linguistics, software evolution and reverse engineering, model driven
engineering and research 2.0.
Dragan Gašević is a Canada Research Chair in Semantic Technologies and an
Associate Professor in the School of Computing and Information Systems at
Athabasca University. His research interests include semantic technologies,
software language engineering, technology-enhanced learning, and service-
oriented architectures. He has (co-)authored numerous research papers and is a led
author of the book "Model Driven Engineering and Ontology Development." He
has given tutorials at many well-known conferences such as WWW, ISWC, and
CAiSE.
Ralf Lämmel is Professor of Computer Science at University of Koblenz-Landau.
In his career, he also served at Microsoft Corp., Free University of Amsterdam,
Dutch Center for Mathematics and Computer Science (CWI), and University of
Rostock. Ralf Lämmel is generally interested in the combination of software
engineering and programming languages. Together with the other tutorial speakers
and further researchers, he is one of the founding fathers of the SLE conference.
He is one of the founding fathers of the summer school series GTTSE--Generative
and Transformational Techniques on Software Engineering.