Stockfish, a UCI chess playing engine derived from Glaurung 2.1
Copyright (C) 2004-2008 Tord Romstad (Glaurung author)
Copyright (C) 2008-2015 Marco Costalba, Joona Kiiski, Tord Romstad
+ Copyright (C) 2015-2016 Marco Costalba, Joona Kiiski, Gary Linscott, Tord Romstad
Stockfish is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
#include "timeman.h"
#include "uci.h"
+TimeManagement Time; // Our global time management object
+
namespace {
enum TimeType { OptimumTime, MaxTime };
const int MoveHorizon = 50; // Plan time management at most this many moves ahead
- const double MaxRatio = 7.0; // When in trouble, we can step over reserved time with this ratio
- const double StealRatio = 0.33; // However we must not steal time from remaining moves over this ratio
+ const double MaxRatio = 7.09; // When in trouble, we can step over reserved time with this ratio
+ const double StealRatio = 0.35; // However we must not steal time from remaining moves over this ratio
// move_importance() is a skew-logistic function based on naive statistical
// analysis of "how many games are still undecided after n half-moves". Game
// is considered "undecided" as long as neither side has >275cp advantage.
- // Data was extracted from CCRL game database with some simple filtering criteria.
+ // Data was extracted from the CCRL game database with some simple filtering criteria.
double move_importance(int ply) {
- const double XScale = 9.3;
- const double XShift = 59.8;
- const double Skew = 0.172;
+ const double XScale = 7.64;
+ const double XShift = 58.4;
+ const double Skew = 0.183;
return pow((1 + exp((ply - XShift) / XScale)), -Skew) + DBL_MIN; // Ensure non-zero
}
double ratio1 = (TMaxRatio * moveImportance) / (TMaxRatio * moveImportance + otherMovesImportance);
double ratio2 = (moveImportance + TStealRatio * otherMovesImportance) / (moveImportance + otherMovesImportance);
- return int(myTime * std::min(ratio1, ratio2)); // Intel C++ asks an explicit cast
+ return int(myTime * std::min(ratio1, ratio2)); // Intel C++ asks for an explicit cast
}
} // namespace
/// inc > 0 && movestogo == 0 means: x basetime + z increment
/// inc > 0 && movestogo != 0 means: x moves in y minutes + z increment
-void TimeManager::init(const Search::LimitsType& limits, Color us, int ply, TimePoint now)
+void TimeManagement::init(Search::LimitsType& limits, Color us, int ply)
{
int minThinkingTime = Options["Minimum Thinking Time"];
int moveOverhead = Options["Move Overhead"];
int slowMover = Options["Slow Mover"];
+ int npmsec = Options["nodestime"];
+
+ // If we have to play in 'nodes as time' mode, then convert from time
+ // to nodes, and use resulting values in time management formulas.
+ // WARNING: Given npms (nodes per millisecond) must be much lower then
+ // the real engine speed to avoid time losses.
+ if (npmsec)
+ {
+ if (!availableNodes) // Only once at game start
+ availableNodes = npmsec * limits.time[us]; // Time is in msec
- start = now;
- unstablePvFactor = 1;
+ // Convert from millisecs to nodes
+ limits.time[us] = (int)availableNodes;
+ limits.inc[us] *= npmsec;
+ limits.npmsec = npmsec;
+ }
+
+ startTime = limits.startTime;
optimumTime = maximumTime = std::max(limits.time[us], minThinkingTime);
const int MaxMTG = limits.movestogo ? std::min(limits.movestogo, MoveHorizon) : MoveHorizon;
if (Options["Ponder"])
optimumTime += optimumTime / 4;
-
- optimumTime = std::min(optimumTime, maximumTime);
}
projects / stockfish / blobdiff