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A reflective higher-order calculus. (English) Zbl 1276.68124
Goldin, Dina (ed.) et al., Proceedings of the workshop on the foundations of interactive computation (FInCo 2005), Edinburgh, UK, April 9, 2005. Amsterdam: Elsevier. Electronic Notes in Theoretical Computer Science 141, No. 5, 49-67 (2005).
Summary: The \(\pi\)-calculus is not a closed theory, but rather a theory dependent upon some theory of names. Taking an operational view, one may think of the \(\pi\)-calculus as a procedure that when handed a theory of names provides a theory of processes that communicate over those names. This openness of the theory has been exploited in \(\pi\)-calculus implementations, where ancillary mechanisms provide a means of interpreting of names, e.g., as tcp/ip ports. But, foundationally, one might ask if there is a closed theory of processes, i.e., one in which the theory of names arises from and is wholly determined by the theory of processes.{
}Here we present such a theory in the form of an asynchronous message-passing calculus built on a notion of quoting. Names are quoted processes, and as such represent the code of a process, a reification of the syntactic structure of the process as an object for process manipulation. Name- passing in this setting becomes a way of passing the code of a process as a message. In the presence of a dequote operation, turning the code of a process into a running instance, this machinery yields higher-order characteristics without the introduction of process variables.{
}As is standard with higher-order calculi, replication and/or recursion is no longer required as a primitive operation. Somewhat more interestingly, the introduction of a process constructor to dynamically convert a process into its code is essential to obtain computational completeness, and simultaneously supplants the function of the \(\nu\) operator. In fact, one may give a compositional encoding of the \(\nu\) operator into a calculus featuring dynamic quote as well as dequote.
For the entire collection see [Zbl 1273.68034].

MSC:
68Q85 Models and methods for concurrent and distributed computing (process algebras, bisimulation, transition nets, etc.)
68Q60 Specification and verification (program logics, model checking, etc.)
03B70 Logic in computer science
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