/*
Stockfish, a UCI chess playing engine derived from Glaurung 2.1
Copyright (C) 2004-2008 Tord Romstad (Glaurung author)
- Copyright (C) 2008 Marco Costalba
+ 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
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
-
-#if !defined(ENDGAME_H_INCLUDED)
+#ifndef ENDGAME_H_INCLUDED
#define ENDGAME_H_INCLUDED
-////
-//// Includes
-////
+#include <map>
+#include <string>
#include "position.h"
-#include "scale.h"
-#include "value.h"
+#include "types.h"
-////
-//// Types
-////
+/// EndgameType lists all supported endgames
enum EndgameType {
- // Evaluation functions
- 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
- KQKR, // KQ vs KR
- KBBKN, // KBB vs KN
- KmmKm, // K and two minors vs K and one or two minors
-
- // Scaling functions
- KBPK, // KBP vs K
- KQKRP, // KQ vs KRP
- KRPKR, // KRP vs KR
- KRPPKRP, // KRPP vs KRP
- KPsK, // King and pawns vs king
- KBPKB, // KBP vs KB
- KBPPKB, // KBPP vs KB
- KBPKN, // KBP vs KN
- KNPK, // KNP vs K
- KPKP // KP vs KP
+ // 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
+ KmmKm, // K and one or two minors vs K and zero or one minor
+
+
+ // Scaling functions
+ SCALE_FUNS,
+
+ KBPsK, // KB+pawns vs K
+ KQKRPs, // KQ vs KR+pawns
+ KRPKR, // KRP vs KR
+ KRPPKRP, // KRPP vs KRP
+ KPsK, // King and pawns vs king
+ KBPKB, // KBP vs KB
+ KBPPKB, // KBPP vs KB
+ KBPKN, // KBP vs KN
+ KNPK, // KNP vs K
+ KNPKB, // KNP vs KB
+ KPKP // KP vs KP
};
-/// Template abstract base class for all special endgame functions
+
+/// Endgame functions can be of two types according if return a Value or a
+/// ScaleFactor. Type eg_fun<int>::type equals to either ScaleFactor or Value
+/// depending if the template parameter is 0 or 1.
+
+template<int> 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<typename T>
-class EndgameFunctionBase {
-public:
- EndgameFunctionBase(Color c) : strongerSide(c) { weakerSide = opposite_color(strongerSide); }
- virtual ~EndgameFunctionBase() {}
- virtual T apply(const Position&) = 0;
+struct EndgameBase {
-protected:
- Color strongerSide, weakerSide;
+ virtual ~EndgameBase() {}
+ virtual Color color() const = 0;
+ virtual T operator()(const Position&) const = 0;
};
-typedef EndgameFunctionBase<Value> EndgameEvaluationFunctionBase;
-typedef EndgameFunctionBase<ScaleFactor> EndgameScalingFunctionBase;
+template<EndgameType E, typename T = typename eg_fun<(E > SCALE_FUNS)>::type>
+struct Endgame : public EndgameBase<T> {
-/// Templates subclass for various concrete endgames
+ explicit Endgame(Color c) : strongerSide(c), weakerSide(~c) {}
+ Color color() const { return strongerSide; }
+ T operator()(const Position&) const;
-template<EndgameType>
-struct EvaluationFunction : public EndgameEvaluationFunctionBase {
- explicit EvaluationFunction(Color c): EndgameEvaluationFunctionBase(c) {}
- Value apply(const Position&);
+private:
+ Color strongerSide, weakerSide;
};
-template<EndgameType>
-struct ScalingFunction : public EndgameScalingFunctionBase {
- explicit ScalingFunction(Color c) : EndgameScalingFunctionBase(c) {}
- ScaleFactor apply(const Position&);
-};
+/// 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 operator() that is virtual.
-////
-//// Constants and variables
-////
+class Endgames {
-extern EvaluationFunction<KXK> EvaluateKXK, EvaluateKKX; // Generic "mate lone king" eval
-extern EvaluationFunction<KBNK> EvaluateKBNK, EvaluateKKBN; // KBN vs K
-extern EvaluationFunction<KPK> EvaluateKPK, EvaluateKKP; // KP vs K
-extern EvaluationFunction<KRKP> EvaluateKRKP, EvaluateKPKR; // KR vs KP
-extern EvaluationFunction<KRKB> EvaluateKRKB, EvaluateKBKR; // KR vs KB
-extern EvaluationFunction<KRKN> EvaluateKRKN, EvaluateKNKR; // KR vs KN
-extern EvaluationFunction<KQKR> EvaluateKQKR, EvaluateKRKQ; // KQ vs KR
-extern EvaluationFunction<KBBKN> EvaluateKBBKN, EvaluateKNKBB; // KBB vs KN
-extern EvaluationFunction<KmmKm> EvaluateKmmKm; // K and two minors vs K and one or two minors:
+ typedef std::map<Key, EndgameBase<eg_fun<0>::type>*> M1;
+ typedef std::map<Key, EndgameBase<eg_fun<1>::type>*> M2;
-extern ScalingFunction<KBPK> ScaleKBPK, ScaleKKBP; // KBP vs K
-extern ScalingFunction<KQKRP> ScaleKQKRP, ScaleKRPKQ; // KQ vs KRP
-extern ScalingFunction<KRPKR> ScaleKRPKR, ScaleKRKRP; // KRP vs KR
-extern ScalingFunction<KRPPKRP> ScaleKRPPKRP, ScaleKRPKRPP; // KRPP vs KRP
-extern ScalingFunction<KPsK> ScaleKPsK, ScaleKKPs; // King and pawns vs king
-extern ScalingFunction<KBPKB> ScaleKBPKB, ScaleKBKBP; // KBP vs KB
-extern ScalingFunction<KBPPKB> ScaleKBPPKB, ScaleKBKBPP; // KBPP vs KB
-extern ScalingFunction<KBPKN> ScaleKBPKN, ScaleKNKBP; // KBP vs KN
-extern ScalingFunction<KNPK> ScaleKNPK, ScaleKKNP; // KNP vs K
-extern ScalingFunction<KPKP> ScaleKPKPw, ScaleKPKPb; // KP vs KP
+ M1 m1;
+ M2 m2;
-////
-//// Prototypes
-////
+ M1& map(M1::mapped_type) { return m1; }
+ M2& map(M2::mapped_type) { return m2; }
-extern void init_bitbases();
+ template<EndgameType E> void add(const std::string& code);
+public:
+ Endgames();
+ ~Endgames();
+
+ template<typename T> 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
projects / stockfish / blobdiff