X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fendgame.h;h=49f39990ba513e6ca8584df55fa9ebadddfe6d9d;hp=a9634738bee0232c5c03117d62a21688a1a465cf;hb=27f2ce8f6e8462bd9be4b201dd95fc2df17aafe6;hpb=3b67636f0ecb2ec7e61e9f4adf02a7d4cae89f0a diff --git a/src/endgame.h b/src/endgame.h index a9634738..49f39990 100644 --- a/src/endgame.h +++ b/src/endgame.h @@ -1,7 +1,7 @@ /* Stockfish, a UCI chess playing engine derived from Glaurung 2.1 Copyright (C) 2004-2008 Tord Romstad (Glaurung author) - Copyright (C) 2008-2010 Marco Costalba, Joona Kiiski, Tord Romstad + Copyright (C) 2008-2013 Marco Costalba, Joona Kiiski, 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 @@ -17,11 +17,11 @@ along with this program. If not, see . */ -#if !defined(ENDGAME_H_INCLUDED) +#ifndef ENDGAME_H_INCLUDED #define ENDGAME_H_INCLUDED -#include #include +#include #include "position.h" #include "types.h" @@ -33,19 +33,21 @@ enum EndgameType { // Evaluation functions + KNNK, // KNN vs K KXK, // Generic "mate lone king" eval KBNK, // KBN vs K KPK, // KP vs K KRKP, // KR vs KP KRKB, // KR vs KB KRKN, // KR vs KN + KQKP, // KQ vs KP KQKR, // KQ vs KR KBBKN, // KBB vs KN - KNNK, // KNN vs K KmmKm, // K and two minors vs K and one or two minors // Scaling functions + SCALE_FUNS, KBPsK, // KB+pawns vs K KQKRPs, // KQ vs KR+pawns @@ -56,29 +58,36 @@ enum EndgameType { KBPPKB, // KBPP vs KB KBPKN, // KBP vs KN KNPK, // KNP vs K + KNPKB, // KNP vs KB KPKP // KP vs KP }; +/// Endgame functions can be of two types according if return a Value or a +/// ScaleFactor. Type eg_fun::type equals to either ScaleFactor or Value +/// depending if the template parameter is 0 or 1. + +template struct eg_fun { typedef Value type; }; +template<> struct eg_fun<1> { typedef ScaleFactor type; }; + + /// Base and derived templates for endgame evaluation and scaling functions template struct EndgameBase { - typedef EndgameBase Base; - virtual ~EndgameBase() {} virtual Color color() const = 0; - virtual T apply(const Position&) const = 0; + virtual T operator()(const Position&) const = 0; }; -template +template SCALE_FUNS)>::type> struct Endgame : public EndgameBase { - explicit Endgame(Color c) : strongerSide(c), weakerSide(opposite_color(c)) {} + explicit Endgame(Color c) : strongerSide(c), weakerSide(~c) {} Color color() const { return strongerSide; } - T apply(const Position&) const; + T operator()(const Position&) const; private: Color strongerSide, weakerSide; @@ -87,25 +96,27 @@ private: /// Endgames class stores in two std::map the pointers to endgame evaluation /// and scaling base objects. Then we use polymorphism to invoke the actual -/// endgame function calling its apply() method that is virtual. +/// endgame function calling its operator() that is virtual. -struct Endgames { +class Endgames { - template - struct EMap { typedef std::map*> type; }; + typedef std::map::type>*> M1; + typedef std::map::type>*> M2; - Endgames(); - ~Endgames(); - template EndgameBase* get(Key key) const; + M1 m1; + M2 m2; -private: - template void add(const std::string& keyCode); + M1& map(M1::mapped_type) { return m1; } + M2& map(M2::mapped_type) { return m2; } + + template void add(const std::string& code); - // Here we store two maps, for evaluate and scaling functions... - std::pair::type, EMap::type> maps; +public: + Endgames(); + ~Endgames(); - // ...and here is the accessing template function - template const typename EMap::type& map() const; + template T probe(Key key, T& eg) + { return eg = map(eg).count(key) ? map(eg)[key] : NULL; } }; -#endif // !defined(ENDGAME_H_INCLUDED) +#endif // #ifndef ENDGAME_H_INCLUDED