Alex Loh scite author profile

Abstract. Language workbenches are tools that provide high-level mechanisms for the implementation of (domain-specific) languages. Language workbenches are an active area of research that also receives many contributions from industry. To compare and discuss existing language workbenches, the annual Language Workbench Challenge was launched in 2011. Each year, participants are challenged to realize a given domain-specific language with their workbenches as a basis for discussion and comparison. In this paper, we describe the state of the art of language workbenches as observed in the previous editions of the Language Workbench Challenge. In particular, we capture the design space of language workbenches in a feature model and show where in this design space the participants of the 2013 Language Workbench Challenge reside. We compare these workbenches based on a DSL for questionnaires that was realized in all workbenches.

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Evaluating and comparing language workbenches

Erdweg

Storm

Völter³

et al. 2015

Computer Languages, Systems & Structures

113

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Language workbenches are environments for simplifying the creation and use of computer languages. The annual Language Workbench Challenge (LWC) was launched in 2011 to allow the many academic and industrial researchers in this area an opportunity to quantitatively and qualitatively compare their approaches. We first describe all four LWCs to date, before focussing on the approaches used, and results generated, during the third LWC. We give various empirical data for ten approaches from the third LWC. We present a generic feature model within which the approaches can be understood and contrasted. Finally, based on our experiences of the existing LWCs, we propose a number of benchmark problems for future LWCs.

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Feature-Oriented Programming with Object Algebras

Oliveira

Storm

Loh

et al. 2013

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Abstract. Object algebras are a new programming technique that enables a simple solution to basic extensibility and modularity issues in programming languages. While object algebras excel at defining modular features, the composition mechanisms for object algebras (and features) are still cumbersome and limited in expressiveness. In this paper we leverage two well-studied type system features, intersection types and type-constructor polymorphism, to provide object algebras with expressive and practical composition mechanisms. Intersection types are used for defining expressive run-time composition operators (combinators) that produce objects with multiple (feature) interfaces. Type-constructor polymorphism enables generic interfaces for the various object algebra combinators. Such generic interfaces can be used as a type-safe front end for a generic implementation of the combinators based on reflection. Additionally, we also provide a modular mechanism to allow different forms of self -references in the presence of delegation-based combinators. The result is an expressive, type-safe, dynamic, delegation-based composition technique for object algebras, implemented in Scala, which effectively enables a form of Feature-Oriented Programming using object algebras.

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Ref-Finder

et al. 2010

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Knowing which parts of a system underwent which types of refactoring between two program versions can help programmers better understand code changes. Though there are a number of techniques that automatically find refactorings from two input program versions, these techniques are inadequate in terms of coverage by handling only a subset of refactoring types-mostly simple rename and move refactorings at the level of classes, methods, and fields. This paper presents a Ref-Finder Eclipse plug-in that automatically identifies both atomic and composite refactorings using a template-based refactoring reconstruction approach-it expresses each refactoring type in terms of template logic queries and uses a logic programming engine to infer concrete refactoring instances. Ref-Finder currently supports sixty three types in the Fowler's catalog, showing the most comprehensive coverage among existing techniques.

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The design and implementation of Object Grammars

Storm

Cook

Loh

2014

Science of Computer Programming

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An Object Grammar is a variation on traditional BNF grammars, where the notation is extended to support declarative bidirectional mappings between text and object graphs. The two directions for interpreting Object Grammars are parsing and formatting. Parsing transforms text into an object graph by recognizing syntactic features and creating the corresponding object structure. In the reverse direction, formatting recognizes object graph features and generates an appropriate textual presentation. The key to Object Grammars is the expressive power of the mapping, which decouples the syntactic structure from the graph structure. To handle graphs, Object Grammars support declarative annotations for resolving textual names that refer to arbitrary objects in the graph structure. Predicates on the semantic structure provide additional control over the mapping. Furthermore, Object Grammars are compositional so that languages may be defined in a modular fashion. We have implemented our approach to Object Grammars as one of the foundations of the Ensō system and illustrate the utility of our approach by showing how it enables definition and composition of domain-specific languages (DSLs).

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Alex Loh

The State of the Art in Language Workbenches

Evaluating and comparing language workbenches

Feature-Oriented Programming with Object Algebras

Ref-Finder

The design and implementation of Object Grammars

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