2,040 research outputs found
Modular Composition of Language Features through Extensions of Semantic Language Models
Today, programming or specification languages are often extended in order to customize them for a particular application domain or to refine the language definition. The extension of a semantic model is often at the centre of such an extension. We will present a framework for linking basic and extended models. The example which we are going to
use is the RSL concurrency model. The RAISE specification language RSL is a formal wide-spectrum specification
language which integrates different features, such as state-basedness, concurrency and modules. The concurrency
features of RSL are based on a refinement of a classical denotational model for process algebras. A modification was
necessary to integrate state-based features into the basic model in order to meet requirements in the design of RSL.
We will investigate this integration, formalising the relationship between the basic model and the adapted version in a rigorous way. The result will be a modular composition of the basic process model and new language features, such as state-based features or input/output. We will show general mechanisms for integration of new features into a language by extending language models in a structured, modular way. In particular, we will concentrate on the preservation of properties of the basic model in these extensions
Life of occam-Pi
This paper considers some questions prompted by a brief review of the history of computing. Why is programming so hard? Why is concurrency considered an āadvancedā subject? Whatās the matter with Objects? Where did all the Maths go? In searching for answers, the paper looks at some concerns over fundamental ideas within object orientation (as represented by modern programming languages), before focussing on the concurrency model of communicating processes and its particular expression in the occam family of languages. In that focus, it looks at the history of occam, its underlying philosophy (Ockhamās Razor), its semantic foundation on Hoareās CSP, its principles of process oriented design and its development over almost three decades into occam-? (which blends in the concurrency dynamics of Milnerās ?-calculus). Also presented will be an urgent need for rationalisation ā occam-? is an experiment that has demonstrated significant results, but now needs time to be spent on careful review and implementing the conclusions of that review. Finally, the future is considered. In particular, is there a future
An algebraic basis for specifying and enforcing access control in security systems
Security services in a multi-user environment are often based on access control mechanisms. Static aspects of an access control policy can be formalised using abstract algebraic models. We integrate these static aspects into a dynamic framework considering requesting access to resources as a process aiming at the prevention of access control violations when a program is executed. We use another algebraic technique, monads, as a meta-language to integrate access control operations into a functional
programming language. The integration of monads and concepts from a denotational model for process algebras provides a framework for programming of access control in security systems
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