X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fposition.cpp;h=62749a913b75cfaa5e317c43bd8879e7370009f6;hp=b10ea9ea49c787bab1b08670917505cb3cb5023e;hb=e1919384a23fe728422f995369161efa192380db;hpb=19540c9ee824abc156d5a12ab353c250a083da4b diff --git a/src/position.cpp b/src/position.cpp index b10ea9ea..62749a91 100644 --- a/src/position.cpp +++ b/src/position.cpp @@ -66,7 +66,7 @@ const Value PieceValueEndgame[17] = { namespace { // Bonus for having the side to move (modified by Joona Kiiski) - const Score TempoValue = make_score(48, 22); + const Score Tempo = make_score(48, 22); // To convert a Piece to and from a FEN char const string PieceToChar(" PNBRQK pnbrqk ."); @@ -92,25 +92,17 @@ CheckInfo::CheckInfo(const Position& pos) { } -/// Position c'tors. Here we always create a copy of the original position -/// or the FEN string, we want the new born Position object do not depend -/// on any external data so we detach state pointer from the source one. +/// Position::operator=() creates a copy of 'pos'. We want the new born Position +/// object do not depend on any external data so we detach state pointer from +/// the source one. -void Position::copy(const Position& pos, int th) { +Position& Position::operator=(const Position& pos) { memcpy(this, &pos, sizeof(Position)); startState = *st; st = &startState; - threadID = th; nodes = 0; - - assert(pos_is_ok()); -} - -Position::Position(const string& fen, bool isChess960, int th) { - - from_fen(fen, isChess960); - threadID = th; + return *this; } @@ -229,7 +221,7 @@ void Position::from_fen(const string& fenStr, bool isChess960) { st->key = compute_key(); st->pawnKey = compute_pawn_key(); st->materialKey = compute_material_key(); - st->value = compute_value(); + st->psqScore = compute_psq_score(); st->npMaterial[WHITE] = compute_non_pawn_material(WHITE); st->npMaterial[BLACK] = compute_non_pawn_material(BLACK); st->checkersBB = attackers_to(king_square(sideToMove)) & pieces(~sideToMove); @@ -283,7 +275,7 @@ const string Position::to_fen() const { { sq = make_square(file, rank); - if (square_is_empty(sq)) + if (square_empty(sq)) emptyCnt++; else { @@ -336,7 +328,7 @@ void Position::print(Move move) const { if (move) { - Position p(*this, thread()); + Position p(*this); cout << "\nMove is: " << (sideToMove == BLACK ? ".." : "") << move_to_san(p, move); } @@ -377,7 +369,7 @@ Bitboard Position::hidden_checkers() const { while (pinners) { - b = squares_between(ksq, pop_1st_bit(&pinners)) & occupied_squares(); + b = squares_between(ksq, pop_1st_bit(&pinners)) & pieces(); if (b && single_bit(b) && (b & pieces(sideToMove))) result |= b; @@ -409,7 +401,7 @@ Bitboard Position::attackers_to(Square s, Bitboard occ) const { Bitboard Position::attacks_from(Piece p, Square s, Bitboard occ) { - assert(square_is_ok(s)); + assert(is_ok(s)); switch (type_of(p)) { @@ -427,17 +419,17 @@ Bitboard Position::attacks_from(Piece p, Square s, Bitboard occ) { bool Position::move_attacks_square(Move m, Square s) const { assert(is_ok(m)); - assert(square_is_ok(s)); + assert(is_ok(s)); Bitboard occ, xray; Square from = from_sq(m); Square to = to_sq(m); Piece piece = piece_moved(m); - assert(!square_is_empty(from)); + assert(!square_empty(from)); // Update occupancy as if the piece is moving - occ = occupied_squares() ^ from ^ to; + occ = pieces() ^ from ^ to; // The piece moved in 'to' attacks the square 's' ? if (attacks_from(piece, to, occ) & s) @@ -474,7 +466,7 @@ bool Position::pl_move_is_legal(Move m, Bitboard pinned) const { Square to = to_sq(m); Square capsq = to + pawn_push(them); Square ksq = king_square(us); - Bitboard b = (occupied_squares() ^ from ^ capsq) | to; + Bitboard b = (pieces() ^ from ^ capsq) | to; assert(to == ep_square()); assert(piece_moved(m) == make_piece(us, PAWN)); @@ -576,7 +568,7 @@ bool Position::is_pseudo_legal(const Move m) const { case DELTA_N: case DELTA_S: // Pawn push. The destination square must be empty. - if (!square_is_empty(to)) + if (!square_empty(to)) return false; break; @@ -585,8 +577,8 @@ bool Position::is_pseudo_legal(const Move m) const { // rank, and both the destination square and the square between the // source and destination squares must be empty. if ( rank_of(to) != RANK_4 - || !square_is_empty(to) - || !square_is_empty(from + DELTA_N)) + || !square_empty(to) + || !square_empty(from + DELTA_N)) return false; break; @@ -595,8 +587,8 @@ bool Position::is_pseudo_legal(const Move m) const { // rank, and both the destination square and the square between the // source and destination squares must be empty. if ( rank_of(to) != RANK_5 - || !square_is_empty(to) - || !square_is_empty(from + DELTA_S)) + || !square_empty(to) + || !square_empty(from + DELTA_S)) return false; break; @@ -626,7 +618,7 @@ bool Position::is_pseudo_legal(const Move m) const { } // In case of king moves under check we have to remove king so to catch // as invalid moves like b1a1 when opposite queen is on c1. - else if (attackers_to(to, occupied_squares() ^ from) & pieces(~us)) + else if (attackers_to(to, pieces() ^ from) & pieces(~us)) return false; } @@ -668,7 +660,7 @@ bool Position::move_gives_check(Move m, const CheckInfo& ci) const { // Promotion with check ? if (is_promotion(m)) - return attacks_from(Piece(promotion_type(m)), to, occupied_squares() ^ from) & ksq; + return attacks_from(Piece(promotion_type(m)), to, pieces() ^ from) & ksq; // En passant capture with check ? We have already handled the case // of direct checks and ordinary discovered check, the only case we @@ -677,7 +669,7 @@ bool Position::move_gives_check(Move m, const CheckInfo& ci) const { if (is_enpassant(m)) { Square capsq = make_square(file_of(to), rank_of(from)); - Bitboard b = (occupied_squares() ^ from ^ capsq) | to; + Bitboard b = (pieces() ^ from ^ capsq) | to; return (attacks_bb< ROOK>(ksq, b) & pieces( ROOK, QUEEN, us)) | (attacks_bb(ksq, b) & pieces(BISHOP, QUEEN, us)); @@ -690,7 +682,7 @@ bool Position::move_gives_check(Move m, const CheckInfo& ci) const { Square rfrom = to; // 'King captures the rook' notation Square kto = relative_square(us, rfrom > kfrom ? SQ_G1 : SQ_C1); Square rto = relative_square(us, rfrom > kfrom ? SQ_F1 : SQ_D1); - Bitboard b = (occupied_squares() ^ kfrom ^ rfrom) | rto | kto; + Bitboard b = (pieces() ^ kfrom ^ rfrom) | rto | kto; return attacks_bb(rto, b) & ksq; } @@ -724,7 +716,7 @@ void Position::do_move(Move m, StateInfo& newSt, const CheckInfo& ci, bool moveI Key pawnKey, materialKey; Value npMaterial[2]; int castleRights, rule50, pliesFromNull; - Score value; + Score psq_score; Square epSquare; }; @@ -787,9 +779,9 @@ void Position::do_move(Move m, StateInfo& newSt, const CheckInfo& ci, bool moveI st->npMaterial[them] -= PieceValueMidgame[capture]; // Remove the captured piece - byColorBB[them] ^= capsq; + byTypeBB[ALL_PIECES] ^= capsq; byTypeBB[capture] ^= capsq; - occupied ^= capsq; + byColorBB[them] ^= capsq; // Update piece list, move the last piece at index[capsq] position and // shrink the list. @@ -808,7 +800,7 @@ void Position::do_move(Move m, StateInfo& newSt, const CheckInfo& ci, bool moveI st->materialKey ^= zobrist[them][capture][pieceCount[them][capture]]; // Update incremental scores - st->value -= pst(make_piece(them, capture), capsq); + st->psqScore -= pieceSquareTable[make_piece(them, capture)][capsq]; // Reset rule 50 counter st->rule50 = 0; @@ -837,9 +829,9 @@ void Position::do_move(Move m, StateInfo& newSt, const CheckInfo& ci, bool moveI // Move the piece Bitboard from_to_bb = SquareBB[from] | SquareBB[to]; - byColorBB[us] ^= from_to_bb; + byTypeBB[ALL_PIECES] ^= from_to_bb; byTypeBB[pt] ^= from_to_bb; - occupied ^= from_to_bb; + byColorBB[us] ^= from_to_bb; board[to] = board[from]; board[from] = NO_PIECE; @@ -888,8 +880,8 @@ void Position::do_move(Move m, StateInfo& newSt, const CheckInfo& ci, bool moveI ^ zobrist[us][PAWN][pieceCount[us][PAWN]]; // Update incremental score - st->value += pst(make_piece(us, promotion), to) - - pst(make_piece(us, PAWN), to); + st->psqScore += pieceSquareTable[make_piece(us, promotion)][to] + - pieceSquareTable[make_piece(us, PAWN)][to]; // Update material st->npMaterial[us] += PieceValueMidgame[promotion]; @@ -903,11 +895,11 @@ void Position::do_move(Move m, StateInfo& newSt, const CheckInfo& ci, bool moveI } // Prefetch pawn and material hash tables - Threads[threadID].pawnTable.prefetch(st->pawnKey); - Threads[threadID].materialTable.prefetch(st->materialKey); + prefetch((char*)Threads.this_thread()->pawnTable.entries[st->pawnKey]); + prefetch((char*)Threads.this_thread()->materialTable.entries[st->materialKey]); // Update incremental scores - st->value += pst_delta(piece, from, to); + st->psqScore += psq_delta(piece, from, to); // Set capture piece st->capturedType = capture; @@ -942,7 +934,7 @@ void Position::do_move(Move m, StateInfo& newSt, const CheckInfo& ci, bool moveI // Finish sideToMove = ~sideToMove; - st->value += (sideToMove == WHITE ? TempoValue : -TempoValue); + st->psqScore += (sideToMove == WHITE ? Tempo : -Tempo); assert(pos_is_ok()); } @@ -971,7 +963,7 @@ void Position::undo_move(Move m) { PieceType pt = type_of(piece); PieceType capture = st->capturedType; - assert(square_is_empty(from)); + assert(square_empty(from)); assert(color_of(piece) == us); assert(capture != KING); @@ -1002,9 +994,9 @@ void Position::undo_move(Move m) { // Put the piece back at the source square Bitboard from_to_bb = SquareBB[from] | SquareBB[to]; - byColorBB[us] ^= from_to_bb; + byTypeBB[ALL_PIECES] ^= from_to_bb; byTypeBB[pt] ^= from_to_bb; - occupied ^= from_to_bb; + byColorBB[us] ^= from_to_bb; board[from] = board[to]; board[to] = NO_PIECE; @@ -1029,9 +1021,9 @@ void Position::undo_move(Move m) { } // Restore the captured piece - byColorBB[them] |= capsq; + byTypeBB[ALL_PIECES] |= capsq; byTypeBB[capture] |= capsq; - occupied |= capsq; + byColorBB[them] |= capsq; board[capsq] = make_piece(them, capture); @@ -1085,20 +1077,20 @@ void Position::do_castle_move(Move m) { assert(piece_on(rfrom) == make_piece(us, ROOK)); // Remove pieces from source squares - byColorBB[us] ^= kfrom; + byTypeBB[ALL_PIECES] ^= kfrom; byTypeBB[KING] ^= kfrom; - occupied ^= kfrom; - byColorBB[us] ^= rfrom; + byColorBB[us] ^= kfrom; + byTypeBB[ALL_PIECES] ^= rfrom; byTypeBB[ROOK] ^= rfrom; - occupied ^= rfrom; + byColorBB[us] ^= rfrom; // Put pieces on destination squares - byColorBB[us] |= kto; + byTypeBB[ALL_PIECES] |= kto; byTypeBB[KING] |= kto; - occupied |= kto; - byColorBB[us] |= rto; + byColorBB[us] |= kto; + byTypeBB[ALL_PIECES] |= rto; byTypeBB[ROOK] |= rto; - occupied |= rto; + byColorBB[us] |= rto; // Update board Piece king = make_piece(us, KING); @@ -1120,8 +1112,8 @@ void Position::do_castle_move(Move m) { st->capturedType = NO_PIECE_TYPE; // Update incremental scores - st->value += pst_delta(king, kfrom, kto); - st->value += pst_delta(rook, rfrom, rto); + st->psqScore += psq_delta(king, kfrom, kto); + st->psqScore += psq_delta(rook, rfrom, rto); // Update hash key st->key ^= zobrist[us][KING][kfrom] ^ zobrist[us][KING][kto]; @@ -1143,7 +1135,7 @@ void Position::do_castle_move(Move m) { // Finish sideToMove = ~sideToMove; - st->value += (sideToMove == WHITE ? TempoValue : -TempoValue); + st->psqScore += (sideToMove == WHITE ? Tempo : -Tempo); } else // Undo: point our state pointer back to the previous state @@ -1169,7 +1161,7 @@ void Position::do_null_move(StateInfo& backupSt) { dst->key = src->key; dst->epSquare = src->epSquare; - dst->value = src->value; + dst->psqScore = src->psqScore; dst->rule50 = src->rule50; dst->pliesFromNull = src->pliesFromNull; @@ -1186,7 +1178,7 @@ void Position::do_null_move(StateInfo& backupSt) { st->epSquare = SQ_NONE; st->rule50++; st->pliesFromNull = 0; - st->value += (sideToMove == WHITE) ? TempoValue : -TempoValue; + st->psqScore += (sideToMove == WHITE ? Tempo : -Tempo); } assert(pos_is_ok()); @@ -1235,7 +1227,7 @@ int Position::see(Move m) const { from = from_sq(m); to = to_sq(m); capturedType = type_of(piece_on(to)); - occ = occupied_squares(); + occ = pieces(); // Handle en passant moves if (is_enpassant(m)) @@ -1345,9 +1337,9 @@ void Position::put_piece(Piece p, Square s) { index[s] = pieceCount[c][pt]++; pieceList[c][pt][index[s]] = s; + byTypeBB[ALL_PIECES] |= s; byTypeBB[pt] |= s; byColorBB[c] |= s; - occupied |= s; } @@ -1361,7 +1353,7 @@ Key Position::compute_key() const { Key result = zobCastle[st->castleRights]; for (Square s = SQ_A1; s <= SQ_H8; s++) - if (!square_is_empty(s)) + if (!square_empty(s)) result ^= zobrist[color_of(piece_on(s))][type_of(piece_on(s))][s]; if (ep_square() != SQ_NONE) @@ -1414,11 +1406,11 @@ Key Position::compute_material_key() const { } -/// Position::compute_value() compute the incremental scores for the middle +/// Position::compute_psq_score() computes the incremental scores for the middle /// game and the endgame. These functions are used to initialize the incremental /// scores when a new position is set up, and to verify that the scores are correctly /// updated by do_move and undo_move when the program is running in debug mode. -Score Position::compute_value() const { +Score Position::compute_psq_score() const { Bitboard b; Score result = SCORE_ZERO; @@ -1428,10 +1420,10 @@ Score Position::compute_value() const { { b = pieces(pt, c); while (b) - result += pst(make_piece(c, pt), pop_1st_bit(&b)); + result += pieceSquareTable[make_piece(c, pt)][pop_1st_bit(&b)]; } - result += (sideToMove == WHITE ? TempoValue / 2 : -TempoValue / 2); + result += (sideToMove == WHITE ? Tempo / 2 : -Tempo / 2); return result; } @@ -1540,20 +1532,19 @@ void Position::init() { } -/// Position::flip_me() flips position with the white and black sides reversed. This +/// Position::flip() flips position with the white and black sides reversed. This /// is only useful for debugging especially for finding evaluation symmetry bugs. -void Position::flip_me() { +void Position::flip() { // Make a copy of current position before to start changing - const Position pos(*this, threadID); + const Position pos(*this); clear(); - threadID = pos.thread(); // Board for (Square s = SQ_A1; s <= SQ_H8; s++) - if (!pos.square_is_empty(s)) + if (!pos.square_empty(s)) put_piece(Piece(pos.piece_on(s) ^ 8), ~s); // Side to move @@ -1582,7 +1573,7 @@ void Position::flip_me() { st->materialKey = compute_material_key(); // Incremental scores - st->value = compute_value(); + st->psqScore = compute_psq_score(); // Material st->npMaterial[WHITE] = compute_non_pawn_material(WHITE); @@ -1667,7 +1658,7 @@ bool Position::pos_is_ok(int* failedStep) const { // The union of the white and black pieces must be equal to all // occupied squares - if ((pieces(WHITE) | pieces(BLACK)) != occupied_squares()) + if ((pieces(WHITE) | pieces(BLACK)) != pieces()) return false; // Separate piece type bitboards must have empty intersections @@ -1704,7 +1695,7 @@ bool Position::pos_is_ok(int* failedStep) const { // Incremental eval OK? if (failedStep) (*failedStep)++; - if (debugIncrementalEval && st->value != compute_value()) + if (debugIncrementalEval && st->psqScore != compute_psq_score()) return false; // Non-pawn material OK?