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I am new to threading in C# and despite reading much theory about threading it doesn't help me very much in practice.

I want to write AI function (minmax alphabeta) for a checkers game and execute it in a different thread.

There are 4 options for that: regular Tread, Thread Pool, Asynchronous delegate, BackgroundWorker.

BackgroundWorker seems to me ideal for this, it has delegate for finish so I can run the "makemove" function that will actually make the calculated move on the board and for updating progress bar.

I have 3 questions about this:

  1. Is BackgroundWorker really the best solution for this case?

  2. BackgroundWorker is executed in the Thread Pool, What are the benefits from that? It is always said that Thread Pool is good when you have many different threads, and this is not exactly my case.

  3. All the code examples that I saw were too simple and showed how to create just one such thread. In my program, I need to run this function every time it's the computer's turn, so I probably need to kill the previous thread and start a new one. What is the proper way to implement all this?

Any help would be appreciated.

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closed as not constructive by Dour High Arch, Jens Erat, Vishal, Fls'Zen, A. Rodas May 18 '13 at 3:45

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Can you explain why you want the AI to run in its own thread? Why not run the AI on the UI thread? –  Eric Lippert Dec 18 '11 at 22:06
Because then the form would freeze. –  geniaz1 Dec 19 '11 at 15:36
Only if the AI runs for a long time. Why not build your AI so that it runs for less than 10 milliseconds, remembers where it was, allows the form to process events, and then runs for another ten milliseconds, repeat? No need for additional threads. Ten milliseconds is about forty million processor cycles; surely you can get a fair amount of work done in forty million cycles. –  Eric Lippert Dec 19 '11 at 15:38
Never thought about that. Let's say I have to choose between 10 different moves, so I calculate each one seperatlly and put it's rank in some data structure. But what if calculating some move rank takes more than ten milliseconds? It sounds complecated. Do you have a link to some project that I can learn this technique from? –  geniaz1 Dec 19 '11 at 16:10
And yes, it is complicated; but so is multi-threading. With multi-threading you have to worry about two threads reading and writing the same data structures at the same time, you have to worry about deadlocks and livelocks and all that painful stuff. There's no getting around the fact that doing two things at the same time is complicated. –  Eric Lippert Dec 19 '11 at 16:27

1 Answer 1

1) Any and all of those solutions will work; you just have to use somewhat different logic to deal with each one.

2) ThreadPool is also useful when you have a set of things that can be executed on multiple threads (for example, in a Chinese Checkers game, you could run 5 different AI simulations via ThreadPool and it would run optimally on a computer that has two cores whereas using Threads would slow the process down due to context switching). It certainly works for your case - you'd just queue a second AIEvaluation or whatever and it would start executing ASAP.

3) Well, not really. The computer can't really make its move until after running alphabeta (presumably with some cutoff depth :P) so the AI thread would be done with its work anyhow. You could just use ThreadPool/BackgroundWorker each time.

Some general info about BackgroundWorker: it runs when you have "extra" CPU time, so if your main thread is hogging CPU for some reason, it won't do a whole lot. It may be better to use normal ThreadPool.

Let's say your program calls AIAct() when it's the AI's turn on the main thread. Also, let timerTick be a timer of the sort that exists in Windows Forms. Moreover, let there be the classes AIState and GameBoard that encapsulate the functionality needed for alpha-beta.

using System.Threading;

const int CUTOFF_DEPTH = 6;//Maximum plys for alpha-beta
AIState state;

void AIAct()
    state = new AIState( this.GameBoard.GetState() );
ThreadPool.QueueUserWorkItem(RunMinimax, state);

    //assume that timerTick is a Timer (Windows Forms Timer) that ticks every 100 ms
    timerTick.Enabled = true;

void timerTick_Tick(object sender, EventArgs e)
    if (state.IsComplete)
        timerTick.Enabled = false;
        //whatever else you need to do

private static void RunMinimax(object args)
    AIState state = args as AIState;
    if (state == null)
        //error handling of some sort

    //run your minimax function up to max depth of CUTOFF_DEPTH
    state.Result = Minimax( /* */ );
    state.IsComplete = true;

private class AIState
    public AIState(GameBoard board)
        this.Board = board;

    public readonly GameBoard Board;

    public AIAction Result;
    public volatile bool IsComplete;
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It seems much easier to use Asynchronous delegate instead which will also execute the function in the ThreadPool. I unserstand that TreadPool is good when you have a couple of threads, but in my case I have just one thread so why is it usefull? –  geniaz1 Dec 19 '11 at 22:20
You have one thread that lives and dies quickly and is then reborn. You can just as easily have exactly one long-lived thread who's exact duties change over time (as you re-sync the game-state to it, it starts its alpha-beta search anew). –  GGulati Dec 27 '11 at 16:22

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