Architectural Refinement in HETS

The main objective of this work is to bring a number of improvements to the Heterogeneous Tool Set HETS, both from a theoretical and an implementation point of view. In the first part of the thesis we present a number of recent extensions of the tool, among which declarative specifications of logics, generalized theoroidal comorphisms, heterogeneous colimits and integration of the logic of the term rewriting system Maude. In the second part we concentrate on the CASL architectural refinement language, that we equip with a notion of refinement tree and with calculi for checking correctness and consistency of refinements. Soundness and completeness of these calculi is also investigated. Finally, we present the integration of the VSE refinement method in HETS as an institution comorphism. Thus, the proof manangement component of HETS remains unmodified

CASL for CafeOBJ Users

Casl is an expressive language for the algebraic specificationof software requirements, design, and architecture. It has been developed by an open collaborative effort called CoFI (Common Framework Initiative for algebraic specification and development). Casl combines the best features of many previous main-stream algebraic specification languages, and it should provide a focus for future research and development in the use of algebraic techniques, as well facilitating interoperability ofexisting and future tools. This paper presents Casl for users of the CafeOBJ framework, focusing on the relationship between the two languages. It first considers those constructs of CafeOBJ that have direct counterparts in Casl, and then (briefly) those that do not. It also motivates various Casl constructsthat are not provided by CafeOBJ. Finally, it gives a concise overview of Casl, and illustrates how some CafeOBJ specifications may be expressed in Casl

CoFI: The Common Framework Initiative for Algebraic Specification and Development

An open collaborative effort has been initiated: to design acommon framework for algebraic specification and development of software. The rationale behind this initiative is that the lack of such a common framework greatly hinders the dissemination and application of researchresults in algebraic specification. In particular, the proliferationof specification languages, some differing in only quite minor ways from each other, is a considerable obstacle for the use of algebraic methods in industrial contexts, making it difficult to exploit standard examples, case studies and training material. A common framework with widespread acceptancethroughout the research community is urgently needed.The aim is to base the common framework as much as possible on a critical selection of features that have already been explored in various contexts. The common framework will provide a family of specificationlanguages at different levels: a central, reasonably expressive language, called CASL, for specifying (requirements, design, and architecture of) conventional software; restrictions of CASL to simpler languages, for use primarily in connection with prototyping and verification tools; and extensionsof CASL, oriented towards particular programming paradigms,such as reactive systems and object-based systems. It should also be possibleto embed many existing algebraic specification languages in members of the CASL family. A tentative design for CASL has already been proposed. Task groupsare studying its formal semantics, tool support, methodology, and other aspects, in preparation for the finalization of the design

The foundational legacy of ASL

Abstract. We recall the kernel algebraic specification language ASL and outline its main features in the context of the state of research on algebraic specification at the time it was conceived in the early 1980s. We discuss the most significant new ideas in ASL and the influence they had on subsequent developments in the field and on our own work in particular.

CASL for ASF+SDF Users

Casl is an expressive language for the algebraic specificationof software requirements, design, and architecture. It has beendeveloped by an open collaborative effort called CoFI (CommonFramework Initiative for algebraic specification and development).Casl combines the best features of many previous algebraic specification languages, and it is hoped that it may provide a focus for future research and development in the use of algebraic techniques, as well being attractive for industrial use.This paper presents Casl for users of the Asf+Sdf framework.It shows how familiar constructs of Asf+Sdf may bewritten in Casl, and considers some problems that may arisewhen translating specifications from Asf+Sdf to Casl. It thenexplains and motivates various Casl constructs that cannot beexpressed directly in Asf+Sdf. Finally, it discusses the role thatthe Asf+Sdf system might play in connection with tool supportfor Casl

Development of parsing tools for Casl using generic language technology

An environment for the Common Algebraic Specification Language CASL consists of independent tools. A number of CASL have been built using the algebraic formalism ASF+SDF and the+SDF Meta-Environment. CASL supports-defined syntax which is non-trivial to: ASF+SDF offers a powerful parsing(Generalized LR). Its interactive environment facilitates rapid complemented by early detection correction of errors. A number of core developed for the ASF+SDF-Environment can be reused in the context CASL. Furthermore, an instantiation of a format developed for the representation ASF+SDF specifications and terms provides a-specific exchange format

Equality to equals and unequals: a revisit of the equivalence and nonequivalence criteria in object-oriented software testing

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