public void selectAction() { List <Node> visited = new List <Node>(); Node cur = this; // root visited.Add(cur); while (!(cur.isLeaf())) { cur = cur.select(); visited.Add(cur); if (cur is NondeterministicNode) { cur = ((NondeterministicNode)cur.select()).selected; visited.Add(cur); } } cur.expand(); double value = cur.rollOut(); int panjangSimulasi = (cur as DeterministicNode).s; foreach (Node node in visited) { node.updateStatus(value, panjangSimulasi); } Interlocked.CompareExchange(ref ((DeterministicNode)cur).isLock, Available, Taken); }
static void testParallelSSAB() { for (int xy = 0; xy < 1; xy++) { Console.WriteLine(xy + " uuuuuu"); time = new Stopwatch(); time.Start(); Board board = new Board(); board.flip(0, 0); SimpleTP.DeterministicNode.side = board.sideToMove; SimpleTP.DeterministicNode b = new SimpleTP.DeterministicNode(board.getBoardState(), null, Constant.NONE, Constant.NONE); double x = 0; int u = 0; List <SimpleTP.Node> visited = new List <SimpleTP.Node>(); SimpleTP.Node cur = b; visited.Add(cur); cur.expand(); //cur.updateStatus(cur.rollOut(cur)); object a = new object(); ParallelOptions po = new ParallelOptions(); po.MaxDegreeOfParallelism = 2; List <string> threadid = new List <string>(); Parallel.For(0, 2000, po, i => { u++; Console.WriteLine(u); b.selectAction(); } ); time.Stop(); SimpleTP.Node.PGL = x / 500; Console.WriteLine("PGL:" + SimpleTP.Node.PGL); Console.WriteLine(time.Elapsed.TotalSeconds); } }