/*
Stockfish, a UCI chess playing engine derived from Glaurung 2.1
- Copyright (C) 2004-2008 Tord Romstad (Glaurung author)
- Copyright (C) 2008-2014 Marco Costalba, Joona Kiiski, Tord Romstad
+ Copyright (C) 2004-2020 The Stockfish developers (see AUTHORS file)
Stockfish is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
#ifndef TYPES_H_INCLUDED
#define TYPES_H_INCLUDED
-/// For Linux and OSX configuration is done automatically using Makefile. To get
-/// started type 'make help'.
+/// When compiling with provided Makefile (e.g. for Linux and OSX), configuration
+/// is done automatically. To get started type 'make help'.
///
-/// For Windows, part of the configuration is detected automatically, but some
-/// switches need to be set manually:
+/// When Makefile is not used (e.g. with Microsoft Visual Studio) some switches
+/// need to be set manually:
///
-/// -DNDEBUG | Disable debugging mode. Always use this.
+/// -DNDEBUG | Disable debugging mode. Always use this for release.
///
-/// -DNO_PREFETCH | Disable use of prefetch asm-instruction. A must if you want
-/// | the executable to run on some very old machines.
+/// -DNO_PREFETCH | Disable use of prefetch asm-instruction. You may need this to
+/// | run on some very old machines.
///
/// -DUSE_POPCNT | Add runtime support for use of popcnt asm-instruction. Works
-/// | only in 64-bit mode. For compiling requires hardware with
-/// | popcnt support.
+/// | only in 64-bit mode and requires hardware with popcnt support.
+///
+/// -DUSE_PEXT | Add runtime support for use of pext asm-instruction. Works
+/// | only in 64-bit mode and requires hardware with pext support.
#include <cassert>
#include <cctype>
-#include <climits>
+#include <cstdint>
#include <cstdlib>
+#include <algorithm>
-#include "platform.h"
-
-#define unlikely(x) (x) // For code annotation purposes
+#if defined(_MSC_VER)
+// Disable some silly and noisy warning from MSVC compiler
+#pragma warning(disable: 4127) // Conditional expression is constant
+#pragma warning(disable: 4146) // Unary minus operator applied to unsigned type
+#pragma warning(disable: 4800) // Forcing value to bool 'true' or 'false'
+#endif
-#if defined(_WIN64) && !defined(IS_64BIT)
-# include <intrin.h> // MSVC popcnt and bsfq instrinsics
+/// Predefined macros hell:
+///
+/// __GNUC__ Compiler is gcc, Clang or Intel on Linux
+/// __INTEL_COMPILER Compiler is Intel
+/// _MSC_VER Compiler is MSVC or Intel on Windows
+/// _WIN32 Building on Windows (any)
+/// _WIN64 Building on Windows 64 bit
+
+#if defined(_WIN64) && defined(_MSC_VER) // No Makefile used
+# include <intrin.h> // Microsoft header for _BitScanForward64()
# define IS_64BIT
-# define USE_BSFQ
#endif
-#if defined(USE_POPCNT) && defined(_MSC_VER) && defined(__INTEL_COMPILER)
-# include <nmmintrin.h> // Intel header for _mm_popcnt_u64() intrinsic
+#if defined(USE_POPCNT) && (defined(__INTEL_COMPILER) || defined(_MSC_VER))
+# include <nmmintrin.h> // Intel and Microsoft header for _mm_popcnt_u64()
#endif
-# if !defined(NO_PREFETCH) && (defined(__INTEL_COMPILER) || defined(_MSC_VER))
-# include <xmmintrin.h> // Intel and Microsoft header for _mm_prefetch()
-# endif
+#if !defined(NO_PREFETCH) && (defined(__INTEL_COMPILER) || defined(_MSC_VER))
+# include <xmmintrin.h> // Intel and Microsoft header for _mm_prefetch()
+#endif
-#define CACHE_LINE_SIZE 64
-#if defined(_MSC_VER) || defined(__INTEL_COMPILER)
-# define CACHE_LINE_ALIGNMENT __declspec(align(CACHE_LINE_SIZE))
+#if defined(USE_PEXT)
+# include <immintrin.h> // Header for _pext_u64() intrinsic
+# define pext(b, m) _pext_u64(b, m)
#else
-# define CACHE_LINE_ALIGNMENT __attribute__ ((aligned(CACHE_LINE_SIZE)))
+# define pext(b, m) 0
#endif
-#ifdef _MSC_VER
-# define FORCE_INLINE __forceinline
-#elif defined(__GNUC__)
-# define FORCE_INLINE inline __attribute__((always_inline))
+#ifdef USE_POPCNT
+constexpr bool HasPopCnt = true;
#else
-# define FORCE_INLINE inline
+constexpr bool HasPopCnt = false;
#endif
-#ifdef USE_POPCNT
-const bool HasPopCnt = true;
+#ifdef USE_PEXT
+constexpr bool HasPext = true;
#else
-const bool HasPopCnt = false;
+constexpr bool HasPext = false;
#endif
#ifdef IS_64BIT
-const bool Is64Bit = true;
+constexpr bool Is64Bit = true;
#else
-const bool Is64Bit = false;
+constexpr bool Is64Bit = false;
#endif
typedef uint64_t Key;
typedef uint64_t Bitboard;
-const int MAX_MOVES = 256;
-const int MAX_PLY = 100;
-const int MAX_PLY_PLUS_6 = MAX_PLY + 6;
+constexpr int MAX_MOVES = 256;
+constexpr int MAX_PLY = 246;
/// A move needs 16 bits to be stored
///
/// bit 6-11: origin square (from 0 to 63)
/// bit 12-13: promotion piece type - 2 (from KNIGHT-2 to QUEEN-2)
/// bit 14-15: special move flag: promotion (1), en passant (2), castling (3)
+/// NOTE: EN-PASSANT bit is set only when a pawn can be captured
///
/// Special cases are MOVE_NONE and MOVE_NULL. We can sneak these in because in
/// any normal move destination square is always different from origin square
/// while MOVE_NONE and MOVE_NULL have the same origin and destination square.
-enum Move {
+enum Move : int {
MOVE_NONE,
MOVE_NULL = 65
};
CASTLING = 3 << 14
};
-enum CastlingFlag { // Defined as in PolyGlot book hash key
+enum Color {
+ WHITE, BLACK, COLOR_NB = 2
+};
+
+enum CastlingRights {
NO_CASTLING,
WHITE_OO,
- WHITE_OOO = WHITE_OO << 1,
- BLACK_OO = WHITE_OO << 2,
- BLACK_OOO = WHITE_OO << 3,
- ANY_CASTLING = WHITE_OO | WHITE_OOO | BLACK_OO | BLACK_OOO,
- CASTLING_FLAG_NB = 16
-};
+ WHITE_OOO = WHITE_OO << 1,
+ BLACK_OO = WHITE_OO << 2,
+ BLACK_OOO = WHITE_OO << 3,
+
+ KING_SIDE = WHITE_OO | BLACK_OO,
+ QUEEN_SIDE = WHITE_OOO | BLACK_OOO,
+ WHITE_CASTLING = WHITE_OO | WHITE_OOO,
+ BLACK_CASTLING = BLACK_OO | BLACK_OOO,
+ ANY_CASTLING = WHITE_CASTLING | BLACK_CASTLING,
-enum CastlingSide {
- KING_SIDE,
- QUEEN_SIDE,
- CASTLING_SIDE_NB = 2
+ CASTLING_RIGHT_NB = 16
};
enum Phase {
enum ScaleFactor {
SCALE_FACTOR_DRAW = 0,
- SCALE_FACTOR_ONEPAWN = 48,
SCALE_FACTOR_NORMAL = 64,
SCALE_FACTOR_MAX = 128,
SCALE_FACTOR_NONE = 255
BOUND_EXACT = BOUND_UPPER | BOUND_LOWER
};
-enum Value {
+enum Value : int {
VALUE_ZERO = 0,
VALUE_DRAW = 0,
- VALUE_KNOWN_WIN = 15000,
- VALUE_MATE = 30000,
- VALUE_INFINITE = 30001,
- VALUE_NONE = 30002,
+ VALUE_KNOWN_WIN = 10000,
+ VALUE_MATE = 32000,
+ VALUE_INFINITE = 32001,
+ VALUE_NONE = 32002,
+ VALUE_TB_WIN_IN_MAX_PLY = VALUE_MATE - 2 * MAX_PLY,
+ VALUE_TB_LOSS_IN_MAX_PLY = -VALUE_TB_WIN_IN_MAX_PLY,
VALUE_MATE_IN_MAX_PLY = VALUE_MATE - MAX_PLY,
- VALUE_MATED_IN_MAX_PLY = -VALUE_MATE + MAX_PLY,
+ VALUE_MATED_IN_MAX_PLY = -VALUE_MATE_IN_MAX_PLY,
- VALUE_ENSURE_INTEGER_SIZE_P = INT_MAX,
- VALUE_ENSURE_INTEGER_SIZE_N = INT_MIN,
+ PawnValueMg = 126, PawnValueEg = 208,
+ KnightValueMg = 781, KnightValueEg = 854,
+ BishopValueMg = 825, BishopValueEg = 915,
+ RookValueMg = 1276, RookValueEg = 1380,
+ QueenValueMg = 2538, QueenValueEg = 2682,
+ Tempo = 28,
- PawnValueMg = 198, PawnValueEg = 258,
- KnightValueMg = 817, KnightValueEg = 846,
- BishopValueMg = 836, BishopValueEg = 857,
- RookValueMg = 1270, RookValueEg = 1278,
- QueenValueMg = 2521, QueenValueEg = 2558
+ MidgameLimit = 15258, EndgameLimit = 3915
};
enum PieceType {
PIECE_NB = 16
};
-enum Color {
- WHITE, BLACK, NO_COLOR, COLOR_NB = 2
+// An ID used to track the pieces. Max. 32 pieces on board.
+enum PieceId {
+ PIECE_ID_ZERO = 0,
+ PIECE_ID_KING = 30,
+ PIECE_ID_WKING = 30,
+ PIECE_ID_BKING = 31,
+ PIECE_ID_NONE = 32
};
-enum Depth {
+inline PieceId operator++(PieceId& d, int) {
- ONE_PLY = 2,
+ PieceId x = d;
+ d = PieceId(int(d) + 1);
+ return x;
+}
+
+constexpr Value PieceValue[PHASE_NB][PIECE_NB] = {
+ { VALUE_ZERO, PawnValueMg, KnightValueMg, BishopValueMg, RookValueMg, QueenValueMg, VALUE_ZERO, VALUE_ZERO,
+ VALUE_ZERO, PawnValueMg, KnightValueMg, BishopValueMg, RookValueMg, QueenValueMg, VALUE_ZERO, VALUE_ZERO },
+ { VALUE_ZERO, PawnValueEg, KnightValueEg, BishopValueEg, RookValueEg, QueenValueEg, VALUE_ZERO, VALUE_ZERO,
+ VALUE_ZERO, PawnValueEg, KnightValueEg, BishopValueEg, RookValueEg, QueenValueEg, VALUE_ZERO, VALUE_ZERO }
+};
+
+typedef int Depth;
- DEPTH_ZERO = 0 * ONE_PLY,
- DEPTH_QS_CHECKS = 0 * ONE_PLY,
- DEPTH_QS_NO_CHECKS = -1 * ONE_PLY,
- DEPTH_QS_RECAPTURES = -5 * ONE_PLY,
+enum : int {
+ DEPTH_QS_CHECKS = 0,
+ DEPTH_QS_NO_CHECKS = -1,
+ DEPTH_QS_RECAPTURES = -5,
- DEPTH_NONE = -127 * ONE_PLY
+ DEPTH_NONE = -6,
+ DEPTH_OFFSET = DEPTH_NONE
};
-enum Square {
+enum Square : int {
SQ_A1, SQ_B1, SQ_C1, SQ_D1, SQ_E1, SQ_F1, SQ_G1, SQ_H1,
SQ_A2, SQ_B2, SQ_C2, SQ_D2, SQ_E2, SQ_F2, SQ_G2, SQ_H2,
SQ_A3, SQ_B3, SQ_C3, SQ_D3, SQ_E3, SQ_F3, SQ_G3, SQ_H3,
SQ_A8, SQ_B8, SQ_C8, SQ_D8, SQ_E8, SQ_F8, SQ_G8, SQ_H8,
SQ_NONE,
- SQUARE_NB = 64,
+ SQUARE_ZERO = 0,
+ SQUARE_NB = 64
+};
- DELTA_N = 8,
- DELTA_E = 1,
- DELTA_S = -8,
- DELTA_W = -1,
+enum Direction : int {
+ NORTH = 8,
+ EAST = 1,
+ SOUTH = -NORTH,
+ WEST = -EAST,
- DELTA_NN = DELTA_N + DELTA_N,
- DELTA_NE = DELTA_N + DELTA_E,
- DELTA_SE = DELTA_S + DELTA_E,
- DELTA_SS = DELTA_S + DELTA_S,
- DELTA_SW = DELTA_S + DELTA_W,
- DELTA_NW = DELTA_N + DELTA_W
+ NORTH_EAST = NORTH + EAST,
+ SOUTH_EAST = SOUTH + EAST,
+ SOUTH_WEST = SOUTH + WEST,
+ NORTH_WEST = NORTH + WEST
};
-enum File {
+enum File : int {
FILE_A, FILE_B, FILE_C, FILE_D, FILE_E, FILE_F, FILE_G, FILE_H, FILE_NB
};
-enum Rank {
+enum Rank : int {
RANK_1, RANK_2, RANK_3, RANK_4, RANK_5, RANK_6, RANK_7, RANK_8, RANK_NB
};
+// unique number for each piece type on each square
+enum PieceSquare : uint32_t {
+ PS_NONE = 0,
+ PS_W_PAWN = 1,
+ PS_B_PAWN = 1 * SQUARE_NB + 1,
+ PS_W_KNIGHT = 2 * SQUARE_NB + 1,
+ PS_B_KNIGHT = 3 * SQUARE_NB + 1,
+ PS_W_BISHOP = 4 * SQUARE_NB + 1,
+ PS_B_BISHOP = 5 * SQUARE_NB + 1,
+ PS_W_ROOK = 6 * SQUARE_NB + 1,
+ PS_B_ROOK = 7 * SQUARE_NB + 1,
+ PS_W_QUEEN = 8 * SQUARE_NB + 1,
+ PS_B_QUEEN = 9 * SQUARE_NB + 1,
+ PS_W_KING = 10 * SQUARE_NB + 1,
+ PS_END = PS_W_KING, // pieces without kings (pawns included)
+ PS_B_KING = 11 * SQUARE_NB + 1,
+ PS_END2 = 12 * SQUARE_NB + 1
+};
-/// The Score enum stores a middlegame and an endgame value in a single integer
-/// (enum). The least significant 16 bits are used to store the endgame value
-/// and the upper 16 bits are used to store the middlegame value. The compiler
-/// is free to choose the enum type as long as it can store the data, so we
-/// ensure that Score is an integer type by assigning some big int values.
-enum Score {
- SCORE_ZERO,
- SCORE_ENSURE_INTEGER_SIZE_P = INT_MAX,
- SCORE_ENSURE_INTEGER_SIZE_N = INT_MIN
+struct ExtPieceSquare {
+ PieceSquare from[COLOR_NB];
};
-inline Score make_score(int mg, int eg) { return Score((mg << 16) + eg); }
+// Array for finding the PieceSquare corresponding to the piece on the board
+extern ExtPieceSquare kpp_board_index[PIECE_NB];
+
+constexpr bool is_ok(PieceId pid);
+constexpr Square rotate180(Square sq);
+
+// Structure holding which tracked piece (PieceId) is where (PieceSquare)
+class EvalList {
+
+public:
+ // Max. number of pieces without kings is 30 but must be a multiple of 4 in AVX2
+ static const int MAX_LENGTH = 32;
+
+ // Array that holds the piece id for the pieces on the board
+ PieceId piece_id_list[SQUARE_NB];
+
+ // List of pieces, separate from White and Black POV
+ PieceSquare* piece_list_fw() const { return const_cast<PieceSquare*>(pieceListFw); }
+ PieceSquare* piece_list_fb() const { return const_cast<PieceSquare*>(pieceListFb); }
+
+ // Place the piece pc with piece_id on the square sq on the board
+ void put_piece(PieceId piece_id, Square sq, Piece pc)
+ {
+ assert(is_ok(piece_id));
+ if (pc != NO_PIECE)
+ {
+ pieceListFw[piece_id] = PieceSquare(kpp_board_index[pc].from[WHITE] + sq);
+ pieceListFb[piece_id] = PieceSquare(kpp_board_index[pc].from[BLACK] + rotate180(sq));
+ piece_id_list[sq] = piece_id;
+ }
+ else
+ {
+ pieceListFw[piece_id] = PS_NONE;
+ pieceListFb[piece_id] = PS_NONE;
+ piece_id_list[sq] = piece_id;
+ }
+ }
+
+ // Convert the specified piece_id piece to ExtPieceSquare type and return it
+ ExtPieceSquare piece_with_id(PieceId piece_id) const
+ {
+ ExtPieceSquare eps;
+ eps.from[WHITE] = pieceListFw[piece_id];
+ eps.from[BLACK] = pieceListFb[piece_id];
+ return eps;
+ }
+
+private:
+ PieceSquare pieceListFw[MAX_LENGTH];
+ PieceSquare pieceListFb[MAX_LENGTH];
+};
-/// Extracting the signed lower and upper 16 bits is not so trivial because
-/// according to the standard a simple cast to short is implementation defined
-/// and so is a right shift of a signed integer.
-inline Value mg_value(Score s) { return Value(((s + 0x8000) & ~0xffff) / 0x10000); }
+// For differential evaluation of pieces that changed since last turn
+struct DirtyPiece {
-/// On Intel 64 bit we have a small speed regression with the standard conforming
-/// version. Therefore, in this case we use faster code that, although not 100%
-/// standard compliant, seems to work for Intel and MSVC.
-#if defined(IS_64BIT) && (!defined(__GNUC__) || defined(__INTEL_COMPILER))
+ // Number of changed pieces
+ int dirty_num;
-inline Value eg_value(Score s) { return Value(int16_t(s & 0xffff)); }
+ // The ids of changed pieces, max. 2 pieces can change in one move
+ PieceId pieceId[2];
-#else
+ // What changed from the piece with that piece number
+ ExtPieceSquare old_piece[2];
+ ExtPieceSquare new_piece[2];
+};
+
+/// Score enum stores a middlegame and an endgame value in a single integer (enum).
+/// The least significant 16 bits are used to store the middlegame value and the
+/// upper 16 bits are used to store the endgame value. We have to take care to
+/// avoid left-shifting a signed int to avoid undefined behavior.
+enum Score : int { SCORE_ZERO };
+constexpr Score make_score(int mg, int eg) {
+ return Score((int)((unsigned int)eg << 16) + mg);
+}
+
+/// Extracting the signed lower and upper 16 bits is not so trivial because
+/// according to the standard a simple cast to short is implementation defined
+/// and so is a right shift of a signed integer.
inline Value eg_value(Score s) {
- return Value((int)(unsigned(s) & 0x7fffu) - (int)(unsigned(s) & 0x8000u));
+ union { uint16_t u; int16_t s; } eg = { uint16_t(unsigned(s + 0x8000) >> 16) };
+ return Value(eg.s);
}
-#endif
+inline Value mg_value(Score s) {
+ union { uint16_t u; int16_t s; } mg = { uint16_t(unsigned(s)) };
+ return Value(mg.s);
+}
-#define ENABLE_SAFE_OPERATORS_ON(T) \
-inline T operator+(const T d1, const T d2) { return T(int(d1) + int(d2)); } \
-inline T operator-(const T d1, const T d2) { return T(int(d1) - int(d2)); } \
-inline T operator*(int i, const T d) { return T(i * int(d)); } \
-inline T operator*(const T d, int i) { return T(int(d) * i); } \
-inline T operator-(const T d) { return T(-int(d)); } \
-inline T& operator+=(T& d1, const T d2) { return d1 = d1 + d2; } \
-inline T& operator-=(T& d1, const T d2) { return d1 = d1 - d2; } \
-inline T& operator*=(T& d, int i) { return d = T(int(d) * i); }
-
-#define ENABLE_OPERATORS_ON(T) ENABLE_SAFE_OPERATORS_ON(T) \
-inline T& operator++(T& d) { return d = T(int(d) + 1); } \
-inline T& operator--(T& d) { return d = T(int(d) - 1); } \
-inline T operator/(const T d, int i) { return T(int(d) / i); } \
+#define ENABLE_BASE_OPERATORS_ON(T) \
+constexpr T operator+(T d1, int d2) { return T(int(d1) + d2); } \
+constexpr T operator-(T d1, int d2) { return T(int(d1) - d2); } \
+constexpr T operator-(T d) { return T(-int(d)); } \
+inline T& operator+=(T& d1, int d2) { return d1 = d1 + d2; } \
+inline T& operator-=(T& d1, int d2) { return d1 = d1 - d2; }
+
+#define ENABLE_INCR_OPERATORS_ON(T) \
+inline T& operator++(T& d) { return d = T(int(d) + 1); } \
+inline T& operator--(T& d) { return d = T(int(d) - 1); }
+
+#define ENABLE_FULL_OPERATORS_ON(T) \
+ENABLE_BASE_OPERATORS_ON(T) \
+constexpr T operator*(int i, T d) { return T(i * int(d)); } \
+constexpr T operator*(T d, int i) { return T(int(d) * i); } \
+constexpr T operator/(T d, int i) { return T(int(d) / i); } \
+constexpr int operator/(T d1, T d2) { return int(d1) / int(d2); } \
+inline T& operator*=(T& d, int i) { return d = T(int(d) * i); } \
inline T& operator/=(T& d, int i) { return d = T(int(d) / i); }
-ENABLE_OPERATORS_ON(Value)
-ENABLE_OPERATORS_ON(PieceType)
-ENABLE_OPERATORS_ON(Piece)
-ENABLE_OPERATORS_ON(Color)
-ENABLE_OPERATORS_ON(Depth)
-ENABLE_OPERATORS_ON(Square)
-ENABLE_OPERATORS_ON(File)
-ENABLE_OPERATORS_ON(Rank)
+ENABLE_FULL_OPERATORS_ON(Value)
+ENABLE_FULL_OPERATORS_ON(Direction)
-/// Added operators for adding integers to a Value
-inline Value operator+(Value v, int i) { return Value(int(v) + i); }
-inline Value operator-(Value v, int i) { return Value(int(v) - i); }
+ENABLE_INCR_OPERATORS_ON(Piece)
+ENABLE_INCR_OPERATORS_ON(PieceSquare)
+ENABLE_INCR_OPERATORS_ON(PieceId)
+ENABLE_INCR_OPERATORS_ON(PieceType)
+ENABLE_INCR_OPERATORS_ON(Square)
+ENABLE_INCR_OPERATORS_ON(File)
+ENABLE_INCR_OPERATORS_ON(Rank)
-ENABLE_SAFE_OPERATORS_ON(Score)
+ENABLE_BASE_OPERATORS_ON(Score)
+
+#undef ENABLE_FULL_OPERATORS_ON
+#undef ENABLE_INCR_OPERATORS_ON
+#undef ENABLE_BASE_OPERATORS_ON
+
+/// Additional operators to add a Direction to a Square
+constexpr Square operator+(Square s, Direction d) { return Square(int(s) + int(d)); }
+constexpr Square operator-(Square s, Direction d) { return Square(int(s) - int(d)); }
+inline Square& operator+=(Square& s, Direction d) { return s = s + d; }
+inline Square& operator-=(Square& s, Direction d) { return s = s - d; }
/// Only declared but not defined. We don't want to multiply two scores due to
/// a very high risk of overflow. So user should explicitly convert to integer.
-inline Score operator*(Score s1, Score s2);
+Score operator*(Score, Score) = delete;
/// Division of a Score must be handled separately for each term
inline Score operator/(Score s, int i) {
return make_score(mg_value(s) / i, eg_value(s) / i);
}
-#undef ENABLE_OPERATORS_ON
-#undef ENABLE_SAFE_OPERATORS_ON
+/// Multiplication of a Score by an integer. We check for overflow in debug mode.
+inline Score operator*(Score s, int i) {
-extern Value PieceValue[PHASE_NB][PIECE_NB];
+ Score result = Score(int(s) * i);
-struct ExtMove {
- Move move;
- int score;
-};
+ assert(eg_value(result) == (i * eg_value(s)));
+ assert(mg_value(result) == (i * mg_value(s)));
+ assert((i == 0) || (result / i) == s);
+
+ return result;
+}
+
+/// Multiplication of a Score by a boolean
+inline Score operator*(Score s, bool b) {
+ return b ? s : SCORE_ZERO;
+}
+
+constexpr Color operator~(Color c) {
+ return Color(c ^ BLACK); // Toggle color
+}
-inline bool operator<(const ExtMove& f, const ExtMove& s) {
- return f.score < s.score;
+constexpr Square flip_rank(Square s) { // Swap A1 <-> A8
+ return Square(s ^ SQ_A8);
}
-inline Color operator~(Color c) {
- return Color(c ^ BLACK);
+constexpr Square flip_file(Square s) { // Swap A1 <-> H1
+ return Square(s ^ SQ_H1);
}
-inline Square operator~(Square s) {
- return Square(s ^ SQ_A8); // Vertical flip SQ_A1 -> SQ_A8
+constexpr Piece operator~(Piece pc) {
+ return Piece(pc ^ 8); // Swap color of piece B_KNIGHT <-> W_KNIGHT
}
-inline Square operator|(File f, Rank r) {
- return Square((r << 3) | f);
+constexpr CastlingRights operator&(Color c, CastlingRights cr) {
+ return CastlingRights((c == WHITE ? WHITE_CASTLING : BLACK_CASTLING) & cr);
}
-inline Value mate_in(int ply) {
+constexpr Value mate_in(int ply) {
return VALUE_MATE - ply;
}
-inline Value mated_in(int ply) {
+constexpr Value mated_in(int ply) {
return -VALUE_MATE + ply;
}
-inline Piece make_piece(Color c, PieceType pt) {
- return Piece((c << 3) | pt);
+constexpr Square make_square(File f, Rank r) {
+ return Square((r << 3) + f);
}
-inline CastlingFlag make_castling_flag(Color c, CastlingSide s) {
- return CastlingFlag(WHITE_OO << ((s == QUEEN_SIDE) + 2 * c));
+constexpr Piece make_piece(Color c, PieceType pt) {
+ return Piece((c << 3) + pt);
}
-inline PieceType type_of(Piece p) {
- return PieceType(p & 7);
+constexpr PieceType type_of(Piece pc) {
+ return PieceType(pc & 7);
}
-inline Color color_of(Piece p) {
- assert(p != NO_PIECE);
- return Color(p >> 3);
+inline Color color_of(Piece pc) {
+ assert(pc != NO_PIECE);
+ return Color(pc >> 3);
}
-inline bool is_ok(Square s) {
+constexpr bool is_ok(PieceId pid) {
+ return pid < PIECE_ID_NONE;
+}
+
+constexpr bool is_ok(Square s) {
return s >= SQ_A1 && s <= SQ_H8;
}
-inline File file_of(Square s) {
+constexpr File file_of(Square s) {
return File(s & 7);
}
-inline Rank rank_of(Square s) {
+constexpr Rank rank_of(Square s) {
return Rank(s >> 3);
}
-inline Square relative_square(Color c, Square s) {
+constexpr Square relative_square(Color c, Square s) {
return Square(s ^ (c * 56));
}
-inline Rank relative_rank(Color c, Rank r) {
+constexpr Rank relative_rank(Color c, Rank r) {
return Rank(r ^ (c * 7));
}
-inline Rank relative_rank(Color c, Square s) {
+constexpr Rank relative_rank(Color c, Square s) {
return relative_rank(c, rank_of(s));
}
-inline bool opposite_colors(Square s1, Square s2) {
- int s = int(s1) ^ int(s2);
- return ((s >> 3) ^ s) & 1;
+constexpr Direction pawn_push(Color c) {
+ return c == WHITE ? NORTH : SOUTH;
}
-inline char file_to_char(File f, bool tolower = true) {
- return char(f - FILE_A + (tolower ? 'a' : 'A'));
+constexpr Square from_sq(Move m) {
+ return Square((m >> 6) & 0x3F);
}
-inline char rank_to_char(Rank r) {
- return char(r - RANK_1 + '1');
+constexpr Square to_sq(Move m) {
+ return Square(m & 0x3F);
}
-inline Square pawn_push(Color c) {
- return c == WHITE ? DELTA_N : DELTA_S;
+// Return relative square when turning the board 180 degrees
+constexpr Square rotate180(Square sq) {
+ return (Square)(sq ^ 0x3F);
}
-inline Square from_sq(Move m) {
- return Square((m >> 6) & 0x3F);
+constexpr int from_to(Move m) {
+ return m & 0xFFF;
}
-inline Square to_sq(Move m) {
- return Square(m & 0x3F);
+constexpr MoveType type_of(Move m) {
+ return MoveType(m & (3 << 14));
}
-inline MoveType type_of(Move m) {
- return MoveType(m & (3 << 14));
+constexpr PieceType promotion_type(Move m) {
+ return PieceType(((m >> 12) & 3) + KNIGHT);
}
-inline PieceType promotion_type(Move m) {
- return PieceType(((m >> 12) & 3) + 2);
+constexpr Move make_move(Square from, Square to) {
+ return Move((from << 6) + to);
}
-inline Move make_move(Square from, Square to) {
- return Move(to | (from << 6));
+constexpr Move reverse_move(Move m) {
+ return make_move(to_sq(m), from_sq(m));
}
template<MoveType T>
-inline Move make(Square from, Square to, PieceType pt = KNIGHT) {
- return Move(to | (from << 6) | T | ((pt - KNIGHT) << 12));
+constexpr Move make(Square from, Square to, PieceType pt = KNIGHT) {
+ return Move(T + ((pt - KNIGHT) << 12) + (from << 6) + to);
}
-inline bool is_ok(Move m) {
- return from_sq(m) != to_sq(m); // Catches also MOVE_NULL and MOVE_NONE
+constexpr bool is_ok(Move m) {
+ return from_sq(m) != to_sq(m); // Catch MOVE_NULL and MOVE_NONE
}
-#include <string>
-
-inline const std::string square_to_string(Square s) {
- char ch[] = { file_to_char(file_of(s)), rank_to_char(rank_of(s)), 0 };
- return ch;
+/// Based on a congruential pseudo random number generator
+constexpr Key make_key(uint64_t seed) {
+ return seed * 6364136223846793005ULL + 1442695040888963407ULL;
}
#endif // #ifndef TYPES_H_INCLUDED
+
+#include "tune.h" // Global visibility to tuning setup