Component-Based Description of Programming Languages

Mosses, Peter D.

doi:10.14236/ewic/vocs2008.23

Cited by 7 publications

(2 citation statements)

References 28 publications

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“…However, having to deal with both BAS and action notation was a drawback. Mosses et al [25,43,45,46] reported on subsequent work that led to the present paper.…”

Section: Related Workmentioning

confidence: 63%

Reusable Components of Semantic Specifications

Churchill¹,

Mosses²,

Sculthorpe³

et al. 2015

Transactions on Aspect-Oriented Software Development XII

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Abstract. Semantic specifications of programming languages typically have poor modularity. This hinders reuse of parts of the semantics of one language when specifying a different language -even when the two languages have many constructs in common -and evolution of a language may require major reformulation of its semantics. Such drawbacks have discouraged language developers from using formal semantics to document their designs. In the PLanCompS project, we have developed a component-based approach to semantics. Here, we explain its modularity aspects, and present an illustrative case study: a component-based semantics for Caml Light. We have tested the correctness of the semantics by running programs on an interpreter generated from the semantics, comparing the output with that produced on the standard implementation of the language. Our approach provides good modularity, facilitates reuse, and should support co-evolution of languages and their formal semantics. It could be particularly useful in connection with domain-specific languages and language-driven software development.

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“…However, having to deal with both BAS and action notation was a drawback. Mosses et al [25,43,45,46] reported on subsequent work that led to the present paper.…”

Section: Related Workmentioning

confidence: 63%

Reusable Components of Semantic Specifications

Churchill¹,

Mosses²,

Sculthorpe³

et al. 2015

Transactions on Aspect-Oriented Software Development XII

Self Cite

View full text Add to dashboard Cite

show abstract

“…c) Components for Language Specification: PLanCompS funcons are syntactic constructs that ship with their own fixed static and dynamic semantics (presented in MSOS). The PLanCompS specification of a programming language is developed by merely assembling funcons [44]. Example assemblies are larger academic languages [45] and mediumscale ones [46].…”

Section: Related Work A) Lisamentioning

confidence: 99%

Composition of Languages Embedded in Scala

Haeri

Keir

2019

Proceedings of the 2019 Federated Conference on Computer Science and Information Systems

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Composition is amongst the major challenges faced in language engineering. Erdweg et al. offered a taxonomy for language composition. Mernik catalogued the use of the Language Definitional Framework LISA for composition sorts in that taxonomy. We produce a similar catalogue for embedded language engineering in Scala. We begin with techniques that are not specific to Scala. They are applicable in any host language with a module system and support for higher order functions. We, then, present two more techniques to examine Scala-specific language engineering. Interestingly enough, even though dealing with embedded languages, in terms of lines of code, our material is of comparable length to its LISA counterpart. Our work lends insight into Scala's serviceability for composition, as a host for embedded language engineering.

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Programming Language Description Languages

Mosses

2009

Formal Methods: State of the Art and New Directions

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Component-Based Description of Programming Languages

Cited by 7 publications

References 28 publications

Reusable Components of Semantic Specifications

Reusable Components of Semantic Specifications

Composition of Languages Embedded in Scala

Programming Language Description Languages

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