X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fbitbase.cpp;h=700eea9892aa04819a4c27fd490bba36cd74d0a8;hp=c06ca521391fdf466db8b9f68ebe2687a3be1164;hb=10d29add187fbc7ce20535a2beddc76e4a8ad0c2;hpb=a492a9dd079d95faf136a744ff6d47a3d109ad68 diff --git a/src/bitbase.cpp b/src/bitbase.cpp index c06ca521..700eea98 100644 --- a/src/bitbase.cpp +++ b/src/bitbase.cpp @@ -18,254 +18,200 @@ */ #include +#include #include "bitboard.h" #include "types.h" namespace { - enum Result { - RESULT_UNKNOWN, - RESULT_INVALID, - RESULT_WIN, - RESULT_DRAW - }; - - struct KPKPosition { - Result classify_knowns(int index); - Result classify(int index, Result db[]); - - private: - void from_index(int index); - Result classify_white(const Result db[]); - Result classify_black(const Result db[]); - Bitboard wk_attacks() const { return StepAttacksBB[W_KING][whiteKingSquare]; } - Bitboard bk_attacks() const { return StepAttacksBB[B_KING][blackKingSquare]; } - Bitboard pawn_attacks() const { return StepAttacksBB[W_PAWN][pawnSquare]; } - - Square whiteKingSquare, blackKingSquare, pawnSquare; - Color sideToMove; - }; - // The possible pawns squares are 24, the first 4 files and ranks from 2 to 7 - const int IndexMax = 2 * 24 * 64 * 64; // color * wp_sq * wk_sq * bk_sq = 196608 + const unsigned IndexMax = 24*64*64*2; // wp_sq * wk_sq * bk_sq * stm = 196608 // Each uint32_t stores results of 32 positions, one per bit uint32_t KPKBitbase[IndexMax / 32]; - int compute_index(Square wksq, Square bksq, Square wpsq, Color stm); -} + // A KPK bitbase index is an integer in [0, IndexMax] range + // + // Information is mapped in this way + // + // bit 0: side to move (WHITE or BLACK) + // bit 1- 6: black king square (from SQ_A1 to SQ_H8) + // bit 7-12: white king square (from SQ_A1 to SQ_H8) + // bit 13-14: white pawn file (from FILE_A to FILE_D) + // bit 15-17: white pawn 6 - rank (from 6 - RANK_7 to 6 - RANK_2) + unsigned index(Color stm, Square bksq, Square wksq, Square psq) { + return stm + (bksq << 1) + (wksq << 7) + (file_of(psq) << 13) + ((6 - rank_of(psq)) << 15); + } + enum Result { + INVALID = 0, + UNKNOWN = 1, + DRAW = 2, + WIN = 4 + }; -uint32_t probe_kpk_bitbase(Square wksq, Square wpsq, Square bksq, Color stm) { + inline Result& operator|=(Result& r, Result v) { return r = Result(r | v); } - int index = compute_index(wksq, bksq, wpsq, stm); + struct KPKPosition { - return KPKBitbase[index / 32] & (1 << (index & 31)); -} + void classify_leaf(unsigned idx); + Result classify(const std::vector& db) + { return stm == WHITE ? classify(db) : classify(db); } -void kpk_bitbase_init() { + operator Result() const { return res; } - Result db[IndexMax]; - KPKPosition pos; - int index, bit, repeat = 1; + private: + template Bitboard k_attacks() const + { return StepAttacksBB[KING][Us == WHITE ? wksq : bksq]; } - // Initialize table - for (index = 0; index < IndexMax; index++) - db[index] = pos.classify_knowns(index); + template Result classify(const std::vector& db); - // Iterate until all positions are classified (30 cycles needed) - while (repeat) - for (repeat = index = 0; index < IndexMax; index++) - if ( db[index] == RESULT_UNKNOWN - && pos.classify(index, db) != RESULT_UNKNOWN) - repeat = 1; + Color stm; + Square bksq, wksq, psq; + Result res; + }; - // Map 32 position results into one KPKBitbase[] entry - for (index = 0; index < IndexMax / 32; index++) - for (bit = 0; bit < 32; bit++) - if (db[32 * index + bit] == RESULT_WIN) - KPKBitbase[index] |= (1 << bit); -} +} // namespace -namespace { +bool Bitbases::probe_kpk(Square wksq, Square wpsq, Square bksq, Color stm) { - // A KPK bitbase index is an integer in [0, IndexMax] range - // - // Information is mapped in this way - // - // bit 0: side to move (WHITE or BLACK) - // bit 1- 6: black king square (from SQ_A1 to SQ_H8) - // bit 7-12: white king square (from SQ_A1 to SQ_H8) - // bit 13-14: white pawn file (from FILE_A to FILE_D) - // bit 15-17: white pawn rank - 1 (from RANK_2 - 1 to RANK_7 - 1) + assert(file_of(wpsq) <= FILE_D); - int compute_index(Square wksq, Square bksq, Square wpsq, Color stm) { + unsigned idx = index(stm, bksq, wksq, wpsq); + return KPKBitbase[idx / 32] & (1 << (idx & 31)); +} - assert(file_of(wpsq) <= FILE_D); - int p = file_of(wpsq) + 4 * (rank_of(wpsq) - 1); - int r = stm + 2 * bksq + 128 * wksq + 8192 * p; +void Bitbases::init_kpk() { - assert(r >= 0 && r < IndexMax); + unsigned idx, repeat = 1; + std::vector db(IndexMax); - return r; - } + // Initialize db with known win / draw positions + for (idx = 0; idx < IndexMax; idx++) + db[idx].classify_leaf(idx); + + // Iterate until all positions are classified (26 cycles needed) + while (repeat) + for (repeat = idx = 0; idx < IndexMax; idx++) + if (db[idx] == UNKNOWN && db[idx].classify(db) != UNKNOWN) + repeat = 1; - void KPKPosition::from_index(int index) { + // Map 32 results into one KPKBitbase[] entry + for (idx = 0; idx < IndexMax; idx++) + if (db[idx] == WIN) + KPKBitbase[idx / 32] |= 1 << (idx & 31); +} - int s = index >> 13; - sideToMove = Color(index & 1); - blackKingSquare = Square((index >> 1) & 63); - whiteKingSquare = Square((index >> 7) & 63); - pawnSquare = make_square(File(s & 3), Rank((s >> 2) + 1)); - } - Result KPKPosition::classify_knowns(int index) { +namespace { - from_index(index); + void KPKPosition::classify_leaf(unsigned idx) { - // Check if two pieces are on the same square - if ( whiteKingSquare == pawnSquare - || whiteKingSquare == blackKingSquare - || blackKingSquare == pawnSquare) - return RESULT_INVALID; + stm = Color(idx & 1); + bksq = Square((idx >> 1) & 0x3F); + wksq = Square((idx >> 7) & 0x3F); + psq = File((idx >> 13) & 3) | Rank(6 - (idx >> 15)); - // Check if a king can be captured - if ( (wk_attacks() & blackKingSquare) - || ((pawn_attacks() & blackKingSquare) && sideToMove == WHITE)) - return RESULT_INVALID; + // Check if two pieces are on the same square or if a king can be captured + if ( wksq == psq || wksq == bksq || bksq == psq + || (k_attacks() & bksq) + || (stm == WHITE && (StepAttacksBB[PAWN][psq] & bksq))) + res = INVALID; - // The position is an immediate win if it is white to move and the - // white pawn can be promoted without getting captured. - if ( rank_of(pawnSquare) == RANK_7 - && sideToMove == WHITE - && whiteKingSquare != pawnSquare + DELTA_N - && ( square_distance(blackKingSquare, pawnSquare + DELTA_N) > 1 - || (wk_attacks() & (pawnSquare + DELTA_N)))) - return RESULT_WIN; + // The position is an immediate win if it is white to move and the white + // pawn can be promoted without getting captured. + else if ( rank_of(psq) == RANK_7 + && stm == WHITE + && wksq != psq + DELTA_N + && ( square_distance(bksq, psq + DELTA_N) > 1 + ||(k_attacks() & (psq + DELTA_N)))) + res = WIN; // Check for known draw positions // // Case 1: Stalemate - if ( sideToMove == BLACK - && !(bk_attacks() & ~(wk_attacks() | pawn_attacks()))) - return RESULT_DRAW; + else if ( stm == BLACK + && !(k_attacks() & ~(k_attacks() | StepAttacksBB[PAWN][psq]))) + res = DRAW; - // Case 2: King can capture pawn - if ( sideToMove == BLACK - && (bk_attacks() & pawnSquare) && !(wk_attacks() & pawnSquare)) - return RESULT_DRAW; + // Case 2: King can capture undefended pawn + else if ( stm == BLACK + && (k_attacks() & psq & ~k_attacks())) + res = DRAW; // Case 3: Black king in front of white pawn - if ( blackKingSquare == pawnSquare + DELTA_N - && rank_of(pawnSquare) < RANK_7) - return RESULT_DRAW; + else if ( bksq == psq + DELTA_N + && rank_of(psq) < RANK_7) + res = DRAW; - // Case 4: White king in front of pawn and black has opposition - if ( whiteKingSquare == pawnSquare + DELTA_N - && blackKingSquare == pawnSquare + DELTA_N + DELTA_N + DELTA_N - && rank_of(pawnSquare) < RANK_5 - && sideToMove == WHITE) - return RESULT_DRAW; + // Case 4: White king in front of pawn and black has opposition + else if ( stm == WHITE + && wksq == psq + DELTA_N + && bksq == wksq + DELTA_N + DELTA_N + && rank_of(psq) < RANK_5) + res = DRAW; // Case 5: Stalemate with rook pawn - if ( blackKingSquare == SQ_A8 - && file_of(pawnSquare) == FILE_A) - return RESULT_DRAW; - - return RESULT_UNKNOWN; - } - - Result KPKPosition::classify(int index, Result db[]) { - - from_index(index); - db[index] = (sideToMove == WHITE ? classify_white(db) : classify_black(db)); - return db[index]; + else if ( bksq == SQ_A8 + && file_of(psq) == FILE_A) + res = DRAW; + + // Case 6: White king trapped on the rook file + else if ( file_of(wksq) == FILE_A + && file_of(psq) == FILE_A + && rank_of(wksq) > rank_of(psq) + && bksq == wksq + 2) + res = DRAW; + + else + res = UNKNOWN; } - Result KPKPosition::classify_white(const Result db[]) { + template + Result KPKPosition::classify(const std::vector& db) { - // If one move leads to a position classified as RESULT_WIN, the result - // of the current position is RESULT_WIN. If all moves lead to positions - // classified as RESULT_DRAW, the current position is classified RESULT_DRAW - // otherwise the current position is classified as RESULT_UNKNOWN. + // White to Move: If one move leads to a position classified as RESULT_WIN, + // the result of the current position is RESULT_WIN. If all moves lead to + // positions classified as RESULT_DRAW, the current position is classified + // RESULT_DRAW otherwise the current position is classified as RESULT_UNKNOWN. + // + // Black to Move: If one move leads to a position classified as RESULT_DRAW, + // the result of the current position is RESULT_DRAW. If all moves lead to + // positions classified as RESULT_WIN, the position is classified RESULT_WIN. + // Otherwise, the current position is classified as RESULT_UNKNOWN. - bool unknownFound = false; - Bitboard b; - Square s; - Result r; + Result r = INVALID; + Bitboard b = k_attacks(); - // King moves - b = wk_attacks(); while (b) { - s = pop_1st_bit(&b); - r = db[compute_index(s, blackKingSquare, pawnSquare, BLACK)]; + r |= Us == WHITE ? db[index(BLACK, bksq, pop_lsb(&b), psq)] + : db[index(WHITE, pop_lsb(&b), wksq, psq)]; - if (r == RESULT_WIN) - return RESULT_WIN; + if (Us == WHITE && (r & WIN)) + return res = WIN; - if (r == RESULT_UNKNOWN) - unknownFound = true; + if (Us == BLACK && (r & DRAW)) + return res = DRAW; } - // Pawn moves - if (rank_of(pawnSquare) < RANK_7) + if (Us == WHITE && rank_of(psq) < RANK_7) { - s = pawnSquare + DELTA_N; - r = db[compute_index(whiteKingSquare, blackKingSquare, s, BLACK)]; - - if (r == RESULT_WIN) - return RESULT_WIN; - - if (r == RESULT_UNKNOWN) - unknownFound = true; + Square s = psq + DELTA_N; + r |= db[index(BLACK, bksq, wksq, s)]; // Single push - // Double pawn push - if (rank_of(s) == RANK_3 && r != RESULT_INVALID) - { - s += DELTA_N; - r = db[compute_index(whiteKingSquare, blackKingSquare, s, BLACK)]; + if (rank_of(s) == RANK_3 && s != wksq && s != bksq) + r |= db[index(BLACK, bksq, wksq, s + DELTA_N)]; // Double push - if (r == RESULT_WIN) - return RESULT_WIN; - - if (r == RESULT_UNKNOWN) - unknownFound = true; - } + if (r & WIN) + return res = WIN; } - return unknownFound ? RESULT_UNKNOWN : RESULT_DRAW; - } - Result KPKPosition::classify_black(const Result db[]) { - - // If one move leads to a position classified as RESULT_DRAW, the result - // of the current position is RESULT_DRAW. If all moves lead to positions - // classified as RESULT_WIN, the position is classified as RESULT_WIN. - // Otherwise, the current position is classified as RESULT_UNKNOWN. - - bool unknownFound = false; - Bitboard b; - Square s; - Result r; - - // King moves - b = bk_attacks(); - while (b) - { - s = pop_1st_bit(&b); - r = db[compute_index(whiteKingSquare, s, pawnSquare, WHITE)]; - - if (r == RESULT_DRAW) - return RESULT_DRAW; - - if (r == RESULT_UNKNOWN) - unknownFound = true; - } - return unknownFound ? RESULT_UNKNOWN : RESULT_WIN; + return res = r & UNKNOWN ? UNKNOWN : Us == WHITE ? DRAW : WIN; } }