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176
Pict: A programming language based on the picalculus
 PROOF, LANGUAGE AND INTERACTION: ESSAYS IN HONOUR OF ROBIN MILNER
, 1997
"... The πcalculus offers an attractive basis for concurrent programming. It is small, elegant, and well studied, and supports (via simple encodings) a wide range of highlevel constructs including data structures, higherorder functional programming, concurrent control structures, and objects. Moreover ..."
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Cited by 279 (9 self)
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The πcalculus offers an attractive basis for concurrent programming. It is small, elegant, and well studied, and supports (via simple encodings) a wide range of highlevel constructs including data structures, higherorder functional programming, concurrent control structures, and objects. Moreover, familiar type systems for the calculus have direct counterparts in the πcalculus, yielding strong, static typing for a highlevel language using the πcalculus as its core. This paper describes Pict, a stronglytyped concurrent programming language constructed in terms of an explicitlytypedcalculus core language.
Secrecy by Typing in Security Protocols
 Journal of the ACM
, 1998
"... We develop principles and rules for achieving secrecy properties in security protocols. Our approach is based on traditional classification techniques, and extends those techniques to handle concurrent processes that use sharedkey cryptography. The rules have the form of typing rules for a basic co ..."
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Cited by 273 (10 self)
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We develop principles and rules for achieving secrecy properties in security protocols. Our approach is based on traditional classification techniques, and extends those techniques to handle concurrent processes that use sharedkey cryptography. The rules have the form of typing rules for a basic concurrent language with cryptographic primitives, the spi calculus. They guarantee that, if a protocol typechecks, then it does not leak its secret inputs.
Resource Access Control in Systems of Mobile Agents
 Information and Computation
, 1998
"... INTRODUCTION Mobile computation, where independent agents roam widely distributed networks in search of resources and information, is fast becoming a reality. A number of programming languages, APIs and protocols have recently emerged which seek to provide highlevel support for mobile agents. These ..."
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Cited by 212 (18 self)
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INTRODUCTION Mobile computation, where independent agents roam widely distributed networks in search of resources and information, is fast becoming a reality. A number of programming languages, APIs and protocols have recently emerged which seek to provide highlevel support for mobile agents. These include Java [30], Odyssey [15], Aglets [19], Voyager [24] and the latest revisions of the Internet protocol [25, 2]. In addition to these commercial efforts, many prototype languages have been developed and implemented within the programming language research community  examples include Linda [8, 9], Facile [16], Obliq [7], Infospheres [11], the join calculus [13], and Nomadic Pict [33]. In this paper we address the issue of resource access control for such languages. Central to the paradigm of mobile computation are the notions of agent, resource and location. Agents are effective entities that perform computation and interact with other First publis
The reflexive CHAM and the joincalculus
 IN PROCEEDINGS OF THE 23RD ACM SYMPOSIUM ON PRINCIPLES OF PROGRAMMING LANGUAGES
"... By adding reflexion to the chemical machine of Berry and Boudol, we obtain a formal model of concurrency that is consistent with mobility and distribution. Our model provides the foundations of a programming language with functional and objectoriented features. It can also be seen as a process calc ..."
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Cited by 137 (0 self)
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By adding reflexion to the chemical machine of Berry and Boudol, we obtain a formal model of concurrency that is consistent with mobility and distribution. Our model provides the foundations of a programming language with functional and objectoriented features. It can also be seen as a process calculus, the joincalculus, which we prove equivalent to the picalculus of Milner, Parrow and Walker.
The Polymorphic Picalculus: Theory and Implementation
, 1995
"... We investigate whether the πcalculus is able to serve as a good foundation for the design and implementation of a stronglytyped concurrent programming language. The first half of the dissertation examines whether the πcalculus supports a simple type system which is flexible enough to provide a su ..."
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Cited by 109 (0 self)
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We investigate whether the πcalculus is able to serve as a good foundation for the design and implementation of a stronglytyped concurrent programming language. The first half of the dissertation examines whether the πcalculus 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 πcalculus efficiently, starting with an abstract machine for πcalculus and finally presenting a compilation of πcalculus to C. We start the dissertation by presenting a simple, structural type system for πcalculus, and then, after proving the soundness of our type system, show how to infer principal types for πterms. This simple type system can be extended to include useful typetheoretic constructions such as recursive types and higherorder polymorphism. Higherorder polymorphism is important, since it gives us the ability to implement abstract datatypes in a typesafe manner, thereby providing a greater degree of modularity for πcalculus programs. The functional computational paradigm plays an important part in many programming languages. It is wellknown that the πcalculus can encode functional computation. We go further and show that the type structure of λterms is preserved by such encodings, in the sense that we can relate the type of a λterm to the type of its encoding in the πcalculus. This means that a πcalculus programming language can genuinely support typed functional programming as a special case. An efficient implementation of πcalculus is necessary if we wish to consider πcalculus as an operational foundation for concurrent programming. We first give a simple abstract machine for πcalculus and prove it correct. We then show how this abstract machine inspires a simple, but efficient, compilation of πcalculus to C (which now forms the basis of the Pict programming language implementation).
A Generic Type System for the PiCalculus
 Theoretical Computer Science
, 2003
"... We propose a general, powerful framework of type systems for the #calculus, and show that we can obtain as its instances a variety of type systems guaranteeing nontrivial properties like deadlockfreedom and racefreedom. A key idea is to express types and type environments as abstract processe ..."
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Cited by 107 (9 self)
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We propose a general, powerful framework of type systems for the #calculus, and show that we can obtain as its instances a variety of type systems guaranteeing nontrivial properties like deadlockfreedom and racefreedom. A key idea is to express types and type environments as abstract processes: We can check various properties of a process by checking the corresponding properties of its type environment. The framework clarifies the essence of recent complex type systems, and it also enables sharing of a large amount of work such as a proof of type preservation, making it easy to develop new type systems.
On Asynchrony in NamePassing Calculi
 In
, 1998
"... The asynchronous picalculus is considered the basis of experimental programming languages (or proposal of programming languages) like Pict, Join, and Blue calculus. However, at a closer inspection, these languages are based on an even simpler calculus, called Local (L), where: (a) only the output c ..."
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Cited by 97 (15 self)
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The asynchronous picalculus is considered the basis of experimental programming languages (or proposal of programming languages) like Pict, Join, and Blue calculus. However, at a closer inspection, these languages are based on an even simpler calculus, called Local (L), where: (a) only the output capability of names may be transmitted; (b) there is no matching or similar constructs for testing equality between names. We study the basic operational and algebraic theory of Lpi. We focus on bisimulationbased behavioural equivalences, precisely on barbed congruence. We prove two coinductive characterisations of barbed congruence in Lpi, and some basic algebraic laws. We then show applications of this theory, including: the derivability of delayed input; the correctness of an optimisation of the encoding of callbyname lambdacalculus; the validity of some laws for Join.
QuasiLinear Types
, 1999
"... Linear types (types of values that can be used just once) have been drawing a great deal of attention because they are useful for memory management, inplace update of data structures, etc.: an obvious advantage is that a value of a linear type can be immediately deallocated after being used. Howeve ..."
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Cited by 70 (6 self)
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Linear types (types of values that can be used just once) have been drawing a great deal of attention because they are useful for memory management, inplace update of data structures, etc.: an obvious advantage is that a value of a linear type can be immediately deallocated after being used. However, the linear types have not been applied so widely in practice, probably because linear values (values of linear types) in the traditional sense do not so often appear in actual programs. In order to increase the applicability of linear types, we relax the condition of linearity by extending the types with information on an evaluation order and simple dataflow information. The extended type system, called a quasilinear type system, is formalized and its correctness is proved. We have implemented a prototype type inference system for the coreML that can automatically find out which value is linear in the relaxed sense. Promising results were obtained from preliminary experiments with the p...
Session Types for ObjectOriented Languages
 In Proceedings of ECOOP’06, LNCS
, 2006
"... Abstract. A session takes place between two parties; after establishing a connection, each party interleaves local computations with communications (sending or receiving) with the other. Session types characterise such sessions in terms of the types of values communicated and the shape of protocols, ..."
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Cited by 70 (26 self)
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Abstract. A session takes place between two parties; after establishing a connection, each party interleaves local computations with communications (sending or receiving) with the other. Session types characterise such sessions in terms of the types of values communicated and the shape of protocols, and have been developed for the πcalculus, CORBA interfaces, and functional languages. We study the incorporation of session types into objectoriented languages through MOOSE, a multithreaded language with session types, thread spawning, iterative and higherorder sessions. Our design aims to consistently integrate the objectoriented programming style and sessions, and to be able to treat various case studies from the literature. We describe the design of MOOSE, its syntax, operational semantics and type system, and develop a type inference system. After proving subject reduction, we establish the progress property: once a communication has been established, welltyped programs will never starve at communication points. 1