What is the correct way, in Clojure, to do parallel processing when each job of the processing can occur in utter isolation and may generate a list of additional jobs that need to be evaluated?
My actual problem is a nutritional calculation problem, but I will put this in the form of Chess which shares the same problem space traits as my calculation.
Assume, for instance, that I am trying to find all of the moves to Checkmate in a game of Chess. When searching through the board states, I would start out with 20 possible states, each representing a different possible opening move. Each of those will need to be evaluated, accepted or rejected, and then for each accepted move, a new list of jobs would be created representing all of the possible next moves. The jobs would look like this:
initial: '( proposed-move) accepted: '([move] proposed-response) '([move move] proposed-response)
The number of states to evaluates grows as a result of each computation, and each state can be evaluated in complete isolation from all of the others.
A solution I am playing with goes as such:
; a list of all final solutions, each of which is a sequence of moves (def solutions (agent )) ; a list of all jobs pending evaluation (def jobs (agent ))
Given these definitions, I would have a java thread pool, and each thread would request a job from the jobs agent (and wait for that request to be fulfilled). It would then run the calculation, generate a list of solutions and possible solutions. Finally, it would send the solutions to the solutions agent, and the possible solutions to the jobs agent.
Is using a combination of agents and threads the most idiomatic way to go in this case? Can I even get data out of the job queue in the way I am proposing?
Or should my jobs be a java.util.concurrent.LinkedBlockingQueue, as described in Producer consumer with qualifications?