//internal static void on_hash_size(UCIOption opt) { TT.set_size(UInt32.Parse(opt.v)); } internal static void on_clear_hash(UCIOption opt) { TT.clear(); }
/// benchmark() runs a simple benchmark by letting Stockfish analyze a set /// of positions for a given limit each. There are five parameters; the /// transposition table size, the number of search threads that should /// be used, the limit value spent for each position (optional, default is /// depth 12), an optional file name where to look for positions in fen /// format (defaults are the positions defined above) and the type of the /// limit value: depth (default), time in secs or number of nodes. internal static void benchmark(Position current, Stack <string> stack) { List <string> fens = new List <string>(); LimitsType limits = new LimitsType(); Int64 nodes = 0; Int64 nodesAll = 0; long e = 0; long eAll = 0; // Assign default values to missing arguments string ttSize = (stack.Count > 0) ? (stack.Pop()) : "128"; string threads = (stack.Count > 0) ? (stack.Pop()) : "1"; string limit = (stack.Count > 0) ? (stack.Pop()) : "12"; string fenFile = (stack.Count > 0) ? (stack.Pop()) : "default"; string limitType = (stack.Count > 0) ? (stack.Pop()) : "depth"; OptionMap.Instance["Hash"].v = ttSize; OptionMap.Instance["Threads"].v = threads; TT.clear(); if (limitType == "time") { limits.movetime = 1000 * int.Parse(limit); // maxTime is in ms } else if (limitType == "nodes") { limits.nodes = int.Parse(limit); } else { limits.depth = int.Parse(limit); } if (fenFile == "default") { fens.AddRange(Defaults); } else if (fenFile == "current") { fens.Add(current.to_fen()); } else { #if PORTABLE throw new Exception("File cannot be read."); #else System.IO.StreamReader sr = new System.IO.StreamReader(fenFile, true); string fensFromFile = sr.ReadToEnd(); sr.Close(); sr.Dispose(); string[] split = fensFromFile.Replace("\r", "").Split('\n'); foreach (string fen in split) { if (fen.Trim().Length > 0) { fens.Add(fen.Trim()); } } #endif } Stopwatch time = new Stopwatch(); long[] res = new long[fens.Count]; for (int i = 0; i < fens.Count; i++) { time.Reset(); time.Start(); Position pos = new Position(fens[i], bool.Parse(OptionMap.Instance["UCI_Chess960"].v), Threads.main_thread()); Plug.Write("\nPosition: "); Plug.Write((i + 1).ToString()); Plug.Write("/"); Plug.Write(fens.Count.ToString()); Plug.Write(Constants.endl); if (limitType == "perft") { Int64 cnt = Search.perft(pos, limits.depth * DepthC.ONE_PLY); Plug.Write("\nPerft "); Plug.Write(limits.depth.ToString()); Plug.Write(" leaf nodes: "); Plug.Write(cnt.ToString()); Plug.Write(Constants.endl); nodes = cnt; } else { Threads.start_searching(pos, limits, new List <Move>()); Threads.wait_for_search_finished(); nodes = Search.RootPosition.nodes; res[i] = nodes; } e = time.ElapsedMilliseconds; nodesAll += nodes; eAll += e; Plug.Write("\n==========================="); Plug.Write("\nTotal time (ms) : "); Plug.Write(e.ToString()); Plug.Write("\nNodes searched : "); Plug.Write(nodes.ToString()); Plug.Write("\nNodes/second : "); Plug.Write(((int)(nodes / (e / 1000.0))).ToString()); Plug.Write(Constants.endl); } Plug.Write("\n==========================="); Plug.Write("\nTotal time (ms) : "); Plug.Write(eAll.ToString()); Plug.Write("\nNodes searched : "); Plug.Write(nodesAll.ToString()); Plug.Write("\nNodes/second : "); Plug.Write(((int)(nodesAll / (eAll / 1000.0))).ToString()); Plug.Write(Constants.endl); //for (int i = 0; i < res.Length; i++) //{ // Plug.Write(string.Format("{0}: {1}", i, res[i])); // Plug.Write(Constants.endl); //} }