Title page for ETD etd-04272010-020116


Type of Document Master's Thesis
Author Joshi, Nandan
URN etd-04272010-020116
Title Actor systems platform design and implementation of the actor paradigm in a distributed object-oriented environment
Degree Master of Science
Department Computer Science
Advisory Committee
Advisor Name Title
Kafura, Dennis G. Committee Chair
Arthur, James D. Committee Member
Nance, Richard E. Committee Member
Keywords
  • Object-oriented programming (Computer science)
Date of Defense 1993-08-05
Availability restricted
Abstract
This project was undertaken as part of an effort to explore the design of object -oriented systems that are distributed, concurrent, real-time and/or embedded in nature. This work seeks to integrate the concurrency features of the actor model in a distributed, object oriented environment, ESP. The integrated system, called the Actor Systems Platform (ASP), provides a platform for designing concurrent, distributed applications. The actor model provides a mechanism for expressing the inherent concurrency in an application. The concurrency in the application can be exploited by the distributed features available in ESP.

The actor abstraction in ASP is provided by a application-level class hierarchy in ESP. The message passing semantics of the actor model are implemented by using special operator overloading in C++. Cboxes are implemented to provide a synchronization mechanism and a means of returning replies. In a concurrent system, simultaneous execution of an object's methods can cause its state to be inconsistent. This is prevented by providing a method locking mechanism using behavior sets. While integrating the concurrency features of the actor model in an object-oriented environment, differences were encountered in determining the invocation semantics of the actor model and those of inherited methods. The problem is investigated and a taxonomy of solutions is presented.

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