Language workbench

From Wikipedia, the free encyclopedia

A language workbench[1][2] is a tool or set of tools that enables software development in the language-oriented programming[2] software development paradigm. A language workbench will typically include tools to support the definition, reuse and composition of domain-specific languages together with their integrated development environment. Language workbenches were introduced and popularized by Martin Fowler in 2005.

Language workbenches usually support:[1]

  • Specification of the language concepts or metamodel
  • Specification of the editing environments for the domain-specific language
  • Specification of the execution semantics, e.g. through interpretation and code generation

Examples[]

  • Racket is a cross-platform language development workbench including compiler, JIT compiler, IDE and command-line tools designed to accommodate creating both domain-specific languages and completely new languages with facilities to add new notation, constrain constructs, and create IDE tools.[3][4][5]
  • JetBrains MPS is a tool for designing domain-specific languages. It uses projectional editing which allows overcoming the limits of language parsers, and building DSL editors, such as ones with tables and diagrams. It implements language-oriented programming. MPS combines an environment for language definition, a language workbench, and an Integrated Development Environment (IDE) for such languages.[6]
  • Kermeta is an open-source academic language workbench.[7] The Kermeta workbench uses three different meta-languages: one meta-language for the abstract syntax (aligned with Emof); one for the static semantics (aligned with OCL) and one for the behavioral semantics (called the Kermeta Language itself).
  • Melange is a language workbench that provides a modular approach for customizing, assembling and integrating multiple domain-specific language (DSL) specifications and implementations.[8]
  • .[9] is an open-source language workbench for generating parsers, type checkers, compilers, interpreters, as well as IDE plugins for Eclipse and IntelliJ.[10] It uses SDF and a scannerless GLR parser for syntax, and formalisms derived from for semantics.
  • Xtext is an open-source software framework for developing programming languages and domain-specific languages (DSLs). Unlike standard parser generators, Xtext generates not only a parser, but also a class model for the abstract syntax tree. In addition, it provides a fully featured, customizable Eclipse-based IDE.[11]
  • Meeduse[12] is an EMF-based framework that allows one to build, prove and animate executable domain-specific languages (xDSLs) using the B Method. The tool embeds ProB, and animator and model-checker of the B Method.[13]

See also[]

References[]

  1. ^ a b Fowler, Martin. "LanguageWorkbench". Retrieved 14 April 2015.
  2. ^ a b Fowler, Martin (12 June 2005). "Language Workbenches: The Killer-App for Domain Specific Languages?". Retrieved 14 April 2015.
  3. ^ Feltey, Daniel; Florence, Spencer P.; Knutson, Tim; St-Amour, Vincent; Culpepper, Ryan; Flatt, Matthew; Findler, Robert Bruce; Felleisen, Matthias (2016). "Languages the Racket Way" (PDF). 2016 Language Workbench Challenge (65). Retrieved 9 June 2019.
  4. ^ Tobin-Hochstadt, S.; St-Amour, V.; Culpepper, R.; Flatt, M.; Felleisen, M. (2011). "Languages as Libraries" (PDF). Programming Language Design and Implementation.
  5. ^ Flatt, Matthew (2012). "Creating Languages in Racket". Communications of the ACM. Retrieved 2012-04-08.
  6. ^ "JetBrains MPS: Domain-Specific Language Creator".
  7. ^ Jézéquel, Jean-Marc; Combemale, Benoit; Barais, Olivier; Monperrus, Martin; Fouquet, François (2013). "Mashup of metalanguages and its implementation in the Kermeta language workbench" (PDF). Software & Systems Modeling. 14 (2): 905–920. arXiv:1306.0760. doi:10.1007/s10270-013-0354-4. S2CID 199965.
  8. ^ "Melange".
  9. ^ "The Spoofax Language Workbench".
  10. ^ Kats, Lennart C. L.; Visser, Eelco (2010). "The Spoofax language workbench: rules for declarative specification of languages and IDEs.". Proceedings of the 25th Annual ACM SIGPLAN Conference on Object-Oriented Programming, Systems, Languages, and Applications, OOPSLA 2010. doi:10.1145/1869459.1869497.
  11. ^ "Xtext".
  12. ^ Idani, Akram; Ledru, Yves; Vega, German (December 2020). "Alliance of Model Driven Engineering with a proof-based Formal Approach". Innovations in Systems and Software Engineering (ISSE), NASA Journal. 6 (3). doi:10.1007/s11334-020-00366-3.
  13. ^ "Meeduse".

External links[]


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