We investigate whether the Pi-calculus is able to serve as a good foundation for the design and implementation of a strongly-typed concurrent programming language. The first half of the dissertation examines whether the Pi-calculus supports a simple type system which is flexible enough to provide a suitable foundation for the type system of a concurrent programming language. The second half of the dissertation considers how to implement the Pi-calculus efficiently, starting with an abstract machine for Pi-calculus and finally presenting a compilation of Pi-calculus to C.
We start the dissertation by presenting a simple, structural type system for Pi-calculus, and then, after proving the soundness of our type system, show how to infer principal types for Pi-terms. This simple type system can be extended to include useful type-theoretic constructions such as recursive types and higher-order polymorphism. Higher-order polymorphism is important, since it gives us the ability to implement abstract datatypes in a type-safe manner, thereby providing a greater degree of modularity for Pi-calculus programs.
The functional computational paradigm plays an important part in many programming languages. It is well-known that the Pi-calculus can encode functional computation. We go further and show that the type structure of lambda-terms is preserved by such encodings, in the sense that we can relate the type of a lambda-term to the type of its encoding in the Pi-calculus. This means that a Pi-calculus programming language can genuinely support typed functional programming as a special case.
An efficient implementation of Pi-calculus is necessary if we wish to consider Pi-calculus as an operational foundation for concurrent programming. We first give a simple abstract machine for Pi-calculus and prove it correct. We then show how this abstract machine inspires a simple, but efficient, compilation of Pi-calculus to C (which now forms the basis of the Pict programming language implementation).ECS-LFCS-96-345.
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