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In Milner's Pi Calculus, what are the evaluation semantics when multiple processes read from the same channel?

The rules say that

!x(a). P | ?x(b) Q ~> P | Q[a/b]

but what about situations like

!x(a). P | ?x(b) Q | ?x(c) R

?

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What's your take? Also, format your code. –  Marcin Apr 17 '12 at 15:35
    
My take? My guess is that, given the rules as written, the evaluation is indeterminate, and the evaluator has a choice which execution path to take. –  Tac-Tics Apr 17 '12 at 15:45
    
You might ask this on the new Computer Science Stack Exchange, cs.stackexchange.com –  Patrick87 Apr 23 '12 at 16:09

1 Answer 1

I know this question is somewhat old, but for the sake of the next person to come searching for an answer, I'll attempt one.

The answer is: it's nondeterministic. The Pi calculus process:

?x(b).Q | ?x(c).R

Says "Either accept input on x then proceed as Q, or accept input on x and proceed as R". Both executions are valid with respect to this process. You can consider the labelled transition system associated with those process --- it will be branching, as you would expect.

It is precisely this kind of nondeterminism that makes process calculi (like Pi calculus and friends) "special", and different from things like the lambda calculus, where it doesn't matter in what order you evaluate things (you will reach the same result). Pi calculus has all this machinery like bisimulation and transition system semantics precisely so that it can capture these sorts of situations and make them amenable to analysis.

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