/*
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) 2008-2009 Marco Costalba
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 <cassert>
#include "bitbase.h"
+#include "bitcount.h"
#include "endgame.h"
-////
-//// Constants and variables
-////
-
-/// Evaluation functions
-
-// Generic "mate lone king" eval
-KXKEvaluationFunction EvaluateKXK = KXKEvaluationFunction(WHITE);
-KXKEvaluationFunction EvaluateKKX = KXKEvaluationFunction(BLACK);
-
-// KBN vs K
-KBNKEvaluationFunction EvaluateKBNK = KBNKEvaluationFunction(WHITE);
-KBNKEvaluationFunction EvaluateKKBN = KBNKEvaluationFunction(BLACK);
-
-// KP vs K
-KPKEvaluationFunction EvaluateKPK = KPKEvaluationFunction(WHITE);
-KPKEvaluationFunction EvaluateKKP = KPKEvaluationFunction(BLACK);
-
-// KR vs KP
-KRKPEvaluationFunction EvaluateKRKP = KRKPEvaluationFunction(WHITE);
-KRKPEvaluationFunction EvaluateKPKR = KRKPEvaluationFunction(BLACK);
-
-// KR vs KB
-KRKBEvaluationFunction EvaluateKRKB = KRKBEvaluationFunction(WHITE);
-KRKBEvaluationFunction EvaluateKBKR = KRKBEvaluationFunction(BLACK);
-
-// KR vs KN
-KRKNEvaluationFunction EvaluateKRKN = KRKNEvaluationFunction(WHITE);
-KRKNEvaluationFunction EvaluateKNKR = KRKNEvaluationFunction(BLACK);
-
-// KQ vs KR
-KQKREvaluationFunction EvaluateKQKR = KQKREvaluationFunction(WHITE);
-KQKREvaluationFunction EvaluateKRKQ = KQKREvaluationFunction(BLACK);
-
-// KBB vs KN
-KBBKNEvaluationFunction EvaluateKBBKN = KBBKNEvaluationFunction(WHITE);
-KBBKNEvaluationFunction EvaluateKNKBB = KBBKNEvaluationFunction(BLACK);
-
-// K and two minors vs K and one or two minors
-KmmKmEvaluationFunction EvaluateKmmKm = KmmKmEvaluationFunction(WHITE);
-
-
-/// Scaling functions
-
-// KBP vs K
-KBPKScalingFunction ScaleKBPK = KBPKScalingFunction(WHITE);
-KBPKScalingFunction ScaleKKBP = KBPKScalingFunction(BLACK);
-
-// KQ vs KRP
-KQKRPScalingFunction ScaleKQKRP = KQKRPScalingFunction(WHITE);
-KQKRPScalingFunction ScaleKRPKQ = KQKRPScalingFunction(BLACK);
-
-// KRP vs KR
-KRPKRScalingFunction ScaleKRPKR = KRPKRScalingFunction(WHITE);
-KRPKRScalingFunction ScaleKRKRP = KRPKRScalingFunction(BLACK);
-
-// KRPP vs KRP
-KRPPKRPScalingFunction ScaleKRPPKRP = KRPPKRPScalingFunction(WHITE);
-KRPPKRPScalingFunction ScaleKRPKRPP = KRPPKRPScalingFunction(BLACK);
-
-// King and pawns vs king
-KPsKScalingFunction ScaleKPsK = KPsKScalingFunction(WHITE);
-KPsKScalingFunction ScaleKKPs = KPsKScalingFunction(BLACK);
-
-// KBP vs KB
-KBPKBScalingFunction ScaleKBPKB = KBPKBScalingFunction(WHITE);
-KBPKBScalingFunction ScaleKBKBP = KBPKBScalingFunction(BLACK);
-
-// KBP vs KN
-KBPKNScalingFunction ScaleKBPKN = KBPKNScalingFunction(WHITE);
-KBPKNScalingFunction ScaleKNKBP = KBPKNScalingFunction(BLACK);
-
-// KNP vs K
-KNPKScalingFunction ScaleKNPK = KNPKScalingFunction(WHITE);
-KNPKScalingFunction ScaleKKNP = KNPKScalingFunction(BLACK);
-
-// KPKP
-KPKPScalingFunction ScaleKPKPw = KPKPScalingFunction(WHITE);
-KPKPScalingFunction ScaleKPKPb = KPKPScalingFunction(BLACK);
-
-
////
//// Local definitions
////
//// Functions
////
-/// Constructors
-
-EndgameEvaluationFunction::EndgameEvaluationFunction(Color c) : strongerSide(c) {
- weakerSide = opposite_color(strongerSide);
-}
-
-KXKEvaluationFunction::KXKEvaluationFunction(Color c) : EndgameEvaluationFunction(c) {}
-KBNKEvaluationFunction::KBNKEvaluationFunction(Color c) : EndgameEvaluationFunction(c) {}
-KPKEvaluationFunction::KPKEvaluationFunction(Color c) : EndgameEvaluationFunction(c) {}
-KRKPEvaluationFunction::KRKPEvaluationFunction(Color c) : EndgameEvaluationFunction(c) {}
-KRKBEvaluationFunction::KRKBEvaluationFunction(Color c) : EndgameEvaluationFunction(c) {}
-KRKNEvaluationFunction::KRKNEvaluationFunction(Color c) : EndgameEvaluationFunction(c) {}
-KQKREvaluationFunction::KQKREvaluationFunction(Color c) : EndgameEvaluationFunction(c) {}
-KBBKNEvaluationFunction::KBBKNEvaluationFunction(Color c) : EndgameEvaluationFunction(c) {}
-KmmKmEvaluationFunction::KmmKmEvaluationFunction(Color c) : EndgameEvaluationFunction(c) {}
-
-
-ScalingFunction::ScalingFunction(Color c) : strongerSide(c) {
- weakerSide = opposite_color(c);
-}
-
-KBPKScalingFunction::KBPKScalingFunction(Color c) : ScalingFunction(c) {}
-KQKRPScalingFunction::KQKRPScalingFunction(Color c) : ScalingFunction(c) {}
-KRPKRScalingFunction::KRPKRScalingFunction(Color c) : ScalingFunction(c) {}
-KRPPKRPScalingFunction::KRPPKRPScalingFunction(Color c) : ScalingFunction(c) {}
-KPsKScalingFunction::KPsKScalingFunction(Color c) : ScalingFunction(c) {}
-KBPKBScalingFunction::KBPKBScalingFunction(Color c) : ScalingFunction(c) {}
-KBPKNScalingFunction::KBPKNScalingFunction(Color c) : ScalingFunction(c) {}
-KNPKScalingFunction::KNPKScalingFunction(Color c) : ScalingFunction(c) {}
-KPKPScalingFunction::KPKPScalingFunction(Color c) : ScalingFunction(c) {}
-
-
/// Mate with KX vs K. This function is used to evaluate positions with
/// King and plenty of material vs a lone king. It simply gives the
/// attacking side a bonus for driving the defending king towards the edge
/// of the board, and for keeping the distance between the two kings small.
-
-Value KXKEvaluationFunction::apply(const Position& pos) {
+template<>
+Value EvaluationFunction<KXK>::apply(const Position& pos) {
assert(pos.non_pawn_material(weakerSide) == Value(0));
assert(pos.piece_count(weakerSide, PAWN) == Value(0));
/// Mate with KBN vs K. This is similar to KX vs K, but we have to drive the
/// defending king towards a corner square of the right color.
-
-Value KBNKEvaluationFunction::apply(const Position& pos) {
+template<>
+Value EvaluationFunction<KBNK>::apply(const Position& pos) {
assert(pos.non_pawn_material(weakerSide) == Value(0));
assert(pos.piece_count(weakerSide, PAWN) == Value(0));
/// KP vs K. This endgame is evaluated with the help of a bitbase.
-
-Value KPKEvaluationFunction::apply(const Position& pos) {
+template<>
+Value EvaluationFunction<KPK>::apply(const Position& pos) {
assert(pos.non_pawn_material(strongerSide) == Value(0));
assert(pos.non_pawn_material(weakerSide) == Value(0));
/// a bitbase. The function below returns drawish scores when the pawn is
/// far advanced with support of the king, while the attacking king is far
/// away.
-
-Value KRKPEvaluationFunction::apply(const Position& pos) {
+template<>
+Value EvaluationFunction<KRKP>::apply(const Position& pos) {
assert(pos.non_pawn_material(strongerSide) == RookValueMidgame);
assert(pos.piece_count(strongerSide, PAWN) == 0);
/// KR vs KB. This is very simple, and always returns drawish scores. The
/// score is slightly bigger when the defending king is close to the edge.
-
-Value KRKBEvaluationFunction::apply(const Position& pos) {
+template<>
+Value EvaluationFunction<KRKB>::apply(const Position& pos) {
assert(pos.non_pawn_material(strongerSide) == RookValueMidgame);
assert(pos.piece_count(strongerSide, PAWN) == 0);
/// KR vs KN. The attacking side has slightly better winning chances than
/// in KR vs KB, particularly if the king and the knight are far apart.
-
-Value KRKNEvaluationFunction::apply(const Position& pos) {
+template<>
+Value EvaluationFunction<KRKN>::apply(const Position& pos) {
assert(pos.non_pawn_material(strongerSide) == RookValueMidgame);
assert(pos.piece_count(strongerSide, PAWN) == 0);
/// defending king towards the edge. If we also take care to avoid null move
/// for the defending side in the search, this is usually sufficient to be
/// able to win KQ vs KR.
-
-Value KQKREvaluationFunction::apply(const Position& pos) {
+template<>
+Value EvaluationFunction<KQKR>::apply(const Position& pos) {
assert(pos.non_pawn_material(strongerSide) == QueenValueMidgame);
assert(pos.piece_count(strongerSide, PAWN) == 0);
return (strongerSide == pos.side_to_move())? result : -result;
}
-
-Value KBBKNEvaluationFunction::apply(const Position& pos) {
+template<>
+Value EvaluationFunction<KBBKN>::apply(const Position& pos) {
assert(pos.piece_count(strongerSide, BISHOP) == 2);
assert(pos.non_pawn_material(strongerSide) == 2*BishopValueMidgame);
assert(pos.piece_count(weakerSide, KNIGHT) == 1);
assert(pos.non_pawn_material(weakerSide) == KnightValueMidgame);
- assert(pos.pawns() == EmptyBoardBB);
+ assert(pos.pieces(PAWN) == EmptyBoardBB);
Value result = BishopValueEndgame;
Square wksq = pos.king_square(strongerSide);
result += Value(square_distance(bksq, nsq) * 32);
// Bonus for restricting the knight's mobility
- result += Value((8 - count_1s_max_15(pos.piece_attacks<KNIGHT>(nsq))) * 8);
+ result += Value((8 - count_1s_max_15(pos.attacks_from<KNIGHT>(nsq))) * 8);
return (strongerSide == pos.side_to_move() ? result : -result);
}
-Value KmmKmEvaluationFunction::apply(const Position &pos) {
+/// K and two minors vs K and one or two minors or K and two knights against
+/// king alone are always draw.
+template<>
+Value EvaluationFunction<KmmKm>::apply(const Position&) {
return Value(0);
}
+template<>
+Value EvaluationFunction<KNNK>::apply(const Position&) {
+ return Value(0);
+}
/// KBPKScalingFunction scales endgames where the stronger side has king,
/// bishop and one or more pawns. It checks for draws with rook pawns and a
/// bishop of the wrong color. If such a draw is detected, ScaleFactor(0) is
/// returned. If not, the return value is SCALE_FACTOR_NONE, i.e. no scaling
/// will be used.
-
-ScaleFactor KBPKScalingFunction::apply(const Position& pos) {
+template<>
+ScaleFactor ScalingFunction<KBPsK>::apply(const Position& pos) {
assert(pos.non_pawn_material(strongerSide) == BishopValueMidgame);
assert(pos.piece_count(strongerSide, BISHOP) == 1);
// No assertions about the material of weakerSide, because we want draws to
// be detected even when the weaker side has some pawns.
- Bitboard pawns = pos.pawns(strongerSide);
+ Bitboard pawns = pos.pieces(PAWN, strongerSide);
File pawnFile = square_file(pos.piece_list(strongerSide, PAWN, 0));
// All pawns are on a single rook file ?
// The bishop has the wrong color, and the defending king is on the
// file of the pawn(s) or the neighboring file. Find the rank of the
// frontmost pawn.
-
Rank rank;
if (strongerSide == WHITE)
{
/// king and queen, while the weaker side has at least a rook and a pawn.
/// It tests for fortress draws with a rook on the third rank defended by
/// a pawn.
-
-ScaleFactor KQKRPScalingFunction::apply(const Position& pos) {
+template<>
+ScaleFactor ScalingFunction<KQKRPs>::apply(const Position& pos) {
assert(pos.non_pawn_material(strongerSide) == QueenValueMidgame);
assert(pos.piece_count(strongerSide, QUEEN) == 1);
Square kingSq = pos.king_square(weakerSide);
if ( relative_rank(weakerSide, kingSq) <= RANK_2
&& relative_rank(weakerSide, pos.king_square(strongerSide)) >= RANK_4
- && (pos.rooks(weakerSide) & relative_rank_bb(weakerSide, RANK_3))
- && (pos.pawns(weakerSide) & relative_rank_bb(weakerSide, RANK_2))
- && (pos.piece_attacks<KING>(kingSq) & pos.pawns(weakerSide)))
+ && (pos.pieces(ROOK, weakerSide) & relative_rank_bb(weakerSide, RANK_3))
+ && (pos.pieces(PAWN, weakerSide) & relative_rank_bb(weakerSide, RANK_2))
+ && (pos.attacks_from<KING>(kingSq) & pos.pieces(PAWN, weakerSide)))
{
Square rsq = pos.piece_list(weakerSide, ROOK, 0);
- if (pos.pawn_attacks(strongerSide, rsq) & pos.pawns(weakerSide))
+ if (pos.attacks_from<PAWN>(rsq, strongerSide) & pos.pieces(PAWN, weakerSide))
return ScaleFactor(0);
}
return SCALE_FACTOR_NONE;
///
/// It would also be nice to rewrite the actual code for this function,
/// which is mostly copied from Glaurung 1.x, and not very pretty.
-
-ScaleFactor KRPKRScalingFunction::apply(const Position &pos) {
+template<>
+ScaleFactor ScalingFunction<KRPKR>::apply(const Position &pos) {
assert(pos.non_pawn_material(strongerSide) == RookValueMidgame);
assert(pos.piece_count(strongerSide, PAWN) == 1);
/// KRPPKRPScalingFunction scales KRPP vs KRP endgames. There is only a
/// single pattern: If the stronger side has no pawns and the defending king
/// is actively placed, the position is drawish.
-
-ScaleFactor KRPPKRPScalingFunction::apply(const Position &pos) {
+template<>
+ScaleFactor ScalingFunction<KRPPKRP>::apply(const Position &pos) {
assert(pos.non_pawn_material(strongerSide) == RookValueMidgame);
assert(pos.piece_count(strongerSide, PAWN) == 2);
/// KPsKScalingFunction scales endgames with king and two or more pawns
/// against king. There is just a single rule here: If all pawns are on
/// the same rook file and are blocked by the defending king, it's a draw.
-
-ScaleFactor KPsKScalingFunction::apply(const Position &pos) {
+template<>
+ScaleFactor ScalingFunction<KPsK>::apply(const Position &pos) {
assert(pos.non_pawn_material(strongerSide) == Value(0));
assert(pos.piece_count(strongerSide, PAWN) >= 2);
assert(pos.non_pawn_material(weakerSide) == Value(0));
assert(pos.piece_count(weakerSide, PAWN) == 0);
- Bitboard pawns = pos.pawns(strongerSide);
+ Bitboard pawns = pos.pieces(PAWN, strongerSide);
// Are all pawns on the 'a' file?
if ((pawns & ~FileABB) == EmptyBoardBB)
/// square of the king is not of the same color as the stronger side's bishop,
/// it's a draw. If the two bishops have opposite color, it's almost always
/// a draw.
-
-ScaleFactor KBPKBScalingFunction::apply(const Position &pos) {
+template<>
+ScaleFactor ScalingFunction<KBPKB>::apply(const Position &pos) {
assert(pos.non_pawn_material(strongerSide) == BishopValueMidgame);
assert(pos.piece_count(strongerSide, BISHOP) == 1);
else
{
Bitboard ray = ray_bb(pawnSq, (strongerSide == WHITE)? SIGNED_DIR_N : SIGNED_DIR_S);
- if (ray & pos.kings(weakerSide))
+ if (ray & pos.pieces(KING, weakerSide))
return ScaleFactor(0);
- if( (pos.piece_attacks<BISHOP>(weakerBishopSq) & ray)
+ if( (pos.attacks_from<BISHOP>(weakerBishopSq) & ray)
&& square_distance(weakerBishopSq, pawnSq) >= 3)
return ScaleFactor(0);
}
}
+/// KBPPKBScalingFunction scales KBPP vs KB endgames. It detects a few basic
+/// draws with opposite-colored bishops.
+template<>
+ScaleFactor ScalingFunction<KBPPKB>::apply(const Position& pos) {
+
+ assert(pos.non_pawn_material(strongerSide) == BishopValueMidgame);
+ assert(pos.piece_count(strongerSide, BISHOP) == 1);
+ assert(pos.piece_count(strongerSide, PAWN) == 2);
+ assert(pos.non_pawn_material(weakerSide) == BishopValueMidgame);
+ assert(pos.piece_count(weakerSide, BISHOP) == 1);
+ assert(pos.piece_count(weakerSide, PAWN) == 0);
+
+ Square wbsq = pos.piece_list(strongerSide, BISHOP, 0);
+ Square bbsq = pos.piece_list(weakerSide, BISHOP, 0);
+
+ if (square_color(wbsq) == square_color(bbsq))
+ // Not opposite-colored bishops, no scaling
+ return SCALE_FACTOR_NONE;
+
+ Square ksq = pos.king_square(weakerSide);
+ Square psq1 = pos.piece_list(strongerSide, PAWN, 0);
+ Square psq2 = pos.piece_list(strongerSide, PAWN, 1);
+ Rank r1 = square_rank(psq1);
+ Rank r2 = square_rank(psq2);
+ Square blockSq1, blockSq2;
+
+ if (relative_rank(strongerSide, psq1) > relative_rank(strongerSide, psq2))
+ {
+ blockSq1 = psq1 + pawn_push(strongerSide);
+ blockSq2 = make_square(square_file(psq2), square_rank(psq1));
+ }
+ else
+ {
+ blockSq1 = psq2 + pawn_push(strongerSide);
+ blockSq2 = make_square(square_file(psq1), square_rank(psq2));
+ }
+
+ switch (file_distance(psq1, psq2))
+ {
+ case 0:
+ // Both pawns are on the same file. Easy draw if defender firmly controls
+ // some square in the frontmost pawn's path.
+ if ( square_file(ksq) == square_file(blockSq1)
+ && relative_rank(strongerSide, ksq) >= relative_rank(strongerSide, blockSq1)
+ && square_color(ksq) != square_color(wbsq))
+ return ScaleFactor(0);
+ else
+ return SCALE_FACTOR_NONE;
+
+ case 1:
+ // Pawns on neighboring files. Draw if defender firmly controls the square
+ // in front of the frontmost pawn's path, and the square diagonally behind
+ // this square on the file of the other pawn.
+ if ( ksq == blockSq1
+ && square_color(ksq) != square_color(wbsq)
+ && ( bbsq == blockSq2
+ || (pos.attacks_from<BISHOP>(blockSq2) & pos.pieces(BISHOP, weakerSide))
+ || rank_distance(r1, r2) >= 2))
+ return ScaleFactor(0);
+ else if ( ksq == blockSq2
+ && square_color(ksq) != square_color(wbsq)
+ && ( bbsq == blockSq1
+ || (pos.attacks_from<BISHOP>(blockSq1) & pos.pieces(BISHOP, weakerSide))))
+ return ScaleFactor(0);
+ else
+ return SCALE_FACTOR_NONE;
+
+ default:
+ // The pawns are not on the same file or adjacent files. No scaling.
+ return SCALE_FACTOR_NONE;
+ }
+}
+
+
/// KBPKNScalingFunction scales KBP vs KN endgames. There is a single rule:
/// If the defending king is somewhere along the path of the pawn, and the
/// square of the king is not of the same color as the stronger side's bishop,
/// it's a draw.
-
-ScaleFactor KBPKNScalingFunction::apply(const Position &pos) {
+template<>
+ScaleFactor ScalingFunction<KBPKN>::apply(const Position &pos) {
assert(pos.non_pawn_material(strongerSide) == BishopValueMidgame);
assert(pos.piece_count(strongerSide, BISHOP) == 1);
/// KNPKScalingFunction scales KNP vs K endgames. There is a single rule:
/// If the pawn is a rook pawn on the 7th rank and the defending king prevents
/// the pawn from advancing, the position is drawn.
-
-ScaleFactor KNPKScalingFunction::apply(const Position &pos) {
+template<>
+ScaleFactor ScalingFunction<KNPK>::apply(const Position &pos) {
assert(pos.non_pawn_material(strongerSide) == KnightValueMidgame);
assert(pos.piece_count(strongerSide, KNIGHT) == 1);
/// the pawn as well. The exception is when the stronger side's pawn is far
/// advanced and not on a rook file; in this case it is often possible to win
/// (e.g. 8/4k3/3p4/3P4/6K1/8/8/8 w - - 0 1).
-
-ScaleFactor KPKPScalingFunction::apply(const Position &pos) {
+template<>
+ScaleFactor ScalingFunction<KPKP>::apply(const Position &pos) {
assert(pos.non_pawn_material(strongerSide) == Value(0));
assert(pos.non_pawn_material(weakerSide) == Value(0));