Integration of heterogeneous modeling languages via extensible and composable language components
2015
Effective model-driven engineering of complex systems requires to appropriately describe different specific system aspects. To this end, efficient integration of different heterogeneous modeling languages is essential. Modeling language integaration is onerous and requires in-depth conceptual and technical knowledge and effort. Traditional modeling lanugage integration approches require language engineers to compose monolithic language aggregates for a specific task or project. Adapting these aggregates to different contexts requires vast effort and makes these hardly reusable. This contribution presents a method for the engineering of grammar-based language components that can be independently developed, are syntactically composable, and ultimately reusable. To this end, it introduces the concepts of language aggregation, language embedding, and language inheritance, as well as their realization in the language workbench MontiCore. The result is a generalizable, systematic, and efficient syntax-oriented composition of languages that allows the agile employment of modeling languages efficiently tailored for individual software projects.
Keywords:
- First-generation programming language
- Specification language
- Very high-level programming language
- Systems engineering
- Modeling language
- Universal Networking Language
- Natural language processing
- Language primitive
- Domain-specific language
- High-level programming language
- Computer science
- Artificial intelligence
- Low-level programming language
- Programming language
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