Abstract. Rewriting logic is an executable logical framework well suited for the semantic definition of languages. Any such framework has to be judged by its effectiveness to bridge the existing gap between language definitions on the one hand, and language implementations and language analysis tools on the other. We give a progress report on how researchers in the rewriting logic semantics project are narrowing the gap between theory and practice in areas such as: modular semantic definitions of lan-guages; scalability to real languages; support for real time; semantics of software and hardware modeling languages; and semantics-based analysis tools such as static analyzers, model checkers, and program provers.
AbstractA rewrite logic semantic definitional framework for programming languages is introduced, cal...
This paper introduces a framework for rapid prototyping of object oriented programming languages and...
Rewriting logic is a simple computational logic that can naturally express both concurrent computati...
Rewriting logic is a flexible and expressive logical framework that unifies algebraic denotational s...
Rewriting logic is a flexible and expressive logical framework that unifies denotational semantics a...
AbstractRewriting logic is a flexible and expressive logical framework that unifies denotational sem...
Rewriting logic is a simple computational logic that can naturally express both concurrent computati...
AbstractRewriting logic is a flexible and expressive logical framework that unifies algebraic denota...
We show how one can use rewriting logic to faithfully capture (not implement) various operational se...
We show how one can use rewriting logic to faithfully capture (not implement) various operational se...
This paper shows how rewriting logic semantics (RLS) can be used as a compu-tational logic framework...
AbstractThe executability of rewriting logic makes it a compelling environment for language design a...
AbstractThis paper shows how rewriting logic semantics (RLS) can be used as a computational logic fr...
This paper shows how rewriting logic semantics (RLS) can be used as a computational logic framework ...
AbstractRewriting logic [40] is proposed as a logical framework in which other logics can be represe...
AbstractA rewrite logic semantic definitional framework for programming languages is introduced, cal...
This paper introduces a framework for rapid prototyping of object oriented programming languages and...
Rewriting logic is a simple computational logic that can naturally express both concurrent computati...
Rewriting logic is a flexible and expressive logical framework that unifies algebraic denotational s...
Rewriting logic is a flexible and expressive logical framework that unifies denotational semantics a...
AbstractRewriting logic is a flexible and expressive logical framework that unifies denotational sem...
Rewriting logic is a simple computational logic that can naturally express both concurrent computati...
AbstractRewriting logic is a flexible and expressive logical framework that unifies algebraic denota...
We show how one can use rewriting logic to faithfully capture (not implement) various operational se...
We show how one can use rewriting logic to faithfully capture (not implement) various operational se...
This paper shows how rewriting logic semantics (RLS) can be used as a compu-tational logic framework...
AbstractThe executability of rewriting logic makes it a compelling environment for language design a...
AbstractThis paper shows how rewriting logic semantics (RLS) can be used as a computational logic fr...
This paper shows how rewriting logic semantics (RLS) can be used as a computational logic framework ...
AbstractRewriting logic [40] is proposed as a logical framework in which other logics can be represe...
AbstractA rewrite logic semantic definitional framework for programming languages is introduced, cal...
This paper introduces a framework for rapid prototyping of object oriented programming languages and...
Rewriting logic is a simple computational logic that can naturally express both concurrent computati...