ActiveJava

Copyright Tristan Aubrey-Jones May 2008.

Abstract: A project investigating and developing an implicitly concurrent programming language, based on a metaphor taken from the physical world is reported. Uses a programming paradigm where programs consist of systems of autonomous agents, or active objects which communicate via message passing. A language enhancing Java with actors and linear types is presented. Example programs are written, compiled, and executed to evaluate the usefulness of the language. The language found to provide a familiar notation for implicit parallelism, and a compelling new model for concurrency, combining the performance of shared variables with the elegance of message passing.

Introductory Slides (PDF), Report (PDF),
ActiveJava compiler prototype (ajavac), ActiveJava runtime library (ajava_lang).

Examples: 

calc - pocket calculator actor program
dining - dining philosophers actor program (never deadlocks)
sort - parallel quicksort implementation ("SortBenchmark" sorts 10,000 random integers using actors, java threads, and sequentially and compares)
To compile examples use:
compile.bat ./calc
compile.bat ./sort
compile.bat ./dining
To run examples use:
run ./calc Main
run ./dining Main
run ./dining Main fast
run ./sort Main
run ./sort SortingBenchmark

Stdout.java

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import org.taj.ajava.lang.*; public class Stdout extends Actor { private void react_0(String v) { System.out.print(v); } public void deliver(String v) { bufferMessage(new org.taj.ajava.runtime.ActorMessage(v, 0)); } protected void react(String v) { react_0(v); } private void react_1(int v) { System.out.print(v); } public void deliver(int v) { bufferMessage(new org.taj.ajava.runtime.ActorMessage(new Integer(v), 1)); } protected void react(int v) { react_1(v); } private void react_2(Object o) { this.react(o.toString()); } public void deliver(Object o) { bufferMessage(new org.taj.ajava.runtime.ActorMessage(o, 2)); } protected void react(Object o) { react_2(o); } protected void processMessage(org.taj.ajava.runtime.ActorMessage msg) { switch (msg.reactorId) { case 0: { react_0(((String)msg.payload)); return; } case 1: { react_1(((Integer)msg.payload).intValue()); return; } case 2: { react_2(((Object)msg.payload)); return; } default: { super.processMessage(msg); return; } } } private Stdout() { } private static class SingletonHolder { private final static Stdout instance = new Stdout(); } public static Stdout getInstance() { return SingletonHolder.instance; } }