X-Git-Url: https://git.sesse.net/?a=blobdiff_plain;f=src%2Fevaluate.cpp;h=3b6cbbcd8a644d47fb599107a44a565e7276533d;hb=b60f9cc4515cdfb657a0166abb29a60257cc59e1;hp=2f1d5067d013ce2d0ffee3785aefe78910d689c1;hpb=f7494961de13c3341a1ca2d05ea5f3d28fa35d31;p=stockfish diff --git a/src/evaluate.cpp b/src/evaluate.cpp index 2f1d5067..3b6cbbcd 100644 --- a/src/evaluate.cpp +++ b/src/evaluate.cpp @@ -1,6 +1,6 @@ /* Stockfish, a UCI chess playing engine derived from Glaurung 2.1 - Copyright (C) 2004-2021 The Stockfish developers (see AUTHORS file) + Copyright (C) 2004-2023 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 @@ -108,6 +108,7 @@ namespace Eval { MemoryBuffer buffer(const_cast(reinterpret_cast(gEmbeddedNNUEData)), size_t(gEmbeddedNNUESize)); + (void) gEmbeddedNNUEEnd; // Silence warning on unused variable istream stream(&buffer); if (load_eval(eval_file, stream)) @@ -158,7 +159,7 @@ namespace Trace { Score scores[TERM_NB][COLOR_NB]; - double to_cp(Value v) { return double(v) / PawnValueEg; } + double to_cp(Value v) { return double(v) / UCI::NormalizeToPawnValue; } void add(int idx, Color c, Score s) { scores[idx][c] = s; @@ -192,17 +193,17 @@ using namespace Trace; namespace { // Threshold for lazy and space evaluation - constexpr Value LazyThreshold1 = Value(3130); - constexpr Value LazyThreshold2 = Value(2204); + constexpr Value LazyThreshold1 = Value(3631); + constexpr Value LazyThreshold2 = Value(2084); constexpr Value SpaceThreshold = Value(11551); // KingAttackWeights[PieceType] contains king attack weights by piece type - constexpr int KingAttackWeights[PIECE_TYPE_NB] = { 0, 0, 81, 52, 44, 10 }; + constexpr int KingAttackWeights[PIECE_TYPE_NB] = { 0, 0, 76, 46, 45, 14 }; // SafeCheck[PieceType][single/multiple] contains safe check bonus by piece type, // higher if multiple safe checks are possible for that piece type. constexpr int SafeCheck[][2] = { - {}, {}, {803, 1292}, {639, 974}, {1087, 1878}, {759, 1132} + {}, {}, {805, 1292}, {650, 984}, {1071, 1886}, {730, 1128} }; #define S(mg, eg) make_score(mg, eg) @@ -228,58 +229,58 @@ namespace { // BishopPawns[distance from edge] contains a file-dependent penalty for pawns on // squares of the same color as our bishop. constexpr Score BishopPawns[int(FILE_NB) / 2] = { - S(3, 8), S(3, 9), S(2, 8), S(3, 8) + S(3, 8), S(3, 9), S(2, 7), S(3, 7) }; // KingProtector[knight/bishop] contains penalty for each distance unit to own king - constexpr Score KingProtector[] = { S(8, 9), S(6, 9) }; + constexpr Score KingProtector[] = { S(9, 9), S(7, 9) }; // Outpost[knight/bishop] contains bonuses for each knight or bishop occupying a // pawn protected square on rank 4 to 6 which is also safe from a pawn attack. - constexpr Score Outpost[] = { S(57, 38), S(31, 24) }; + constexpr Score Outpost[] = { S(54, 34), S(31, 25) }; // PassedRank[Rank] contains a bonus according to the rank of a passed pawn constexpr Score PassedRank[RANK_NB] = { - S(0, 0), S(7, 27), S(16, 32), S(17, 40), S(64, 71), S(170, 174), S(278, 262) + S(0, 0), S(2, 38), S(15, 36), S(22, 50), S(64, 81), S(166, 184), S(284, 269) }; constexpr Score RookOnClosedFile = S(10, 5); - constexpr Score RookOnOpenFile[] = { S(19, 6), S(47, 26) }; + constexpr Score RookOnOpenFile[] = { S(18, 8), S(49, 26) }; // ThreatByMinor/ByRook[attacked PieceType] contains bonuses according to // which piece type attacks which one. Attacks on lesser pieces which are // pawn-defended are not considered. constexpr Score ThreatByMinor[PIECE_TYPE_NB] = { - S(0, 0), S(5, 32), S(55, 41), S(77, 56), S(89, 119), S(79, 162) + S(0, 0), S(6, 37), S(64, 50), S(82, 57), S(103, 130), S(81, 163) }; constexpr Score ThreatByRook[PIECE_TYPE_NB] = { - S(0, 0), S(3, 44), S(37, 68), S(42, 60), S(0, 39), S(58, 43) + S(0, 0), S(3, 44), S(36, 71), S(44, 59), S(0, 39), S(60, 39) }; constexpr Value CorneredBishop = Value(50); // Assorted bonuses and penalties - constexpr Score UncontestedOutpost = S( 1, 10); + constexpr Score UncontestedOutpost = S( 0, 10); constexpr Score BishopOnKingRing = S( 24, 0); constexpr Score BishopXRayPawns = S( 4, 5); constexpr Score FlankAttacks = S( 8, 0); - constexpr Score Hanging = S( 69, 36); + constexpr Score Hanging = S( 72, 40); constexpr Score KnightOnQueen = S( 16, 11); constexpr Score LongDiagonalBishop = S( 45, 0); constexpr Score MinorBehindPawn = S( 18, 3); - constexpr Score PassedFile = S( 11, 8); - constexpr Score PawnlessFlank = S( 17, 95); - constexpr Score ReachableOutpost = S( 31, 22); - constexpr Score RestrictedPiece = S( 7, 7); + constexpr Score PassedFile = S( 13, 8); + constexpr Score PawnlessFlank = S( 19, 97); + constexpr Score ReachableOutpost = S( 33, 19); + constexpr Score RestrictedPiece = S( 6, 7); constexpr Score RookOnKingRing = S( 16, 0); - constexpr Score SliderOnQueen = S( 60, 18); - constexpr Score ThreatByKing = S( 24, 89); + constexpr Score SliderOnQueen = S( 62, 21); + constexpr Score ThreatByKing = S( 24, 87); constexpr Score ThreatByPawnPush = S( 48, 39); - constexpr Score ThreatBySafePawn = S(173, 94); + constexpr Score ThreatBySafePawn = S(167, 99); constexpr Score TrappedRook = S( 55, 13); constexpr Score WeakQueenProtection = S( 14, 0); - constexpr Score WeakQueen = S( 56, 15); + constexpr Score WeakQueen = S( 57, 19); #undef S @@ -980,7 +981,7 @@ namespace { // Initialize score by reading the incrementally updated scores included in // the position object (material + piece square tables) and the material // imbalance. Score is computed internally from the white point of view. - Score score = pos.psq_score() + me->imbalance() + pos.this_thread()->trend; + Score score = pos.psq_score() + me->imbalance(); // Probe the pawn hash table pe = Pawns::probe(pos); @@ -988,7 +989,9 @@ namespace { // Early exit if score is high auto lazy_skip = [&](Value lazyThreshold) { - return abs(mg_value(score) + eg_value(score)) > lazyThreshold + pos.non_pawn_material() / 32; + return abs(mg_value(score) + eg_value(score)) > lazyThreshold + + std::abs(pos.this_thread()->bestValue) * 5 / 4 + + pos.non_pawn_material() / 32; }; if (lazy_skip(LazyThreshold1)) @@ -1039,72 +1042,58 @@ make_v: return v; } - - /// Fisher Random Chess: correction for cornered bishops, to fix chess960 play with NNUE - - Value fix_FRC(const Position& pos) { - - constexpr Bitboard Corners = 1ULL << SQ_A1 | 1ULL << SQ_H1 | 1ULL << SQ_A8 | 1ULL << SQ_H8; - - if (!(pos.pieces(BISHOP) & Corners)) - return VALUE_ZERO; - - int correction = 0; - - if ( pos.piece_on(SQ_A1) == W_BISHOP - && pos.piece_on(SQ_B2) == W_PAWN) - correction -= CorneredBishop; - - if ( pos.piece_on(SQ_H1) == W_BISHOP - && pos.piece_on(SQ_G2) == W_PAWN) - correction -= CorneredBishop; - - if ( pos.piece_on(SQ_A8) == B_BISHOP - && pos.piece_on(SQ_B7) == B_PAWN) - correction += CorneredBishop; - - if ( pos.piece_on(SQ_H8) == B_BISHOP - && pos.piece_on(SQ_G7) == B_PAWN) - correction += CorneredBishop; - - return pos.side_to_move() == WHITE ? Value(5 * correction) - : -Value(5 * correction); - } - } // namespace Eval /// evaluate() is the evaluator for the outer world. It returns a static /// evaluation of the position from the point of view of the side to move. -Value Eval::evaluate(const Position& pos) { +Value Eval::evaluate(const Position& pos, int* complexity) { Value v; + Value psq = pos.psq_eg_stm(); - // Deciding between classical and NNUE eval: for high PSQ imbalance we use classical, - // but we switch to NNUE during long shuffling or with high material on the board. + // We use the much less accurate but faster Classical eval when the NNUE + // option is set to false. Otherwise we use the NNUE eval unless the + // PSQ advantage is decisive and several pieces remain. (~3 Elo) + bool useClassical = !useNNUE || (pos.count() > 7 && abs(psq) > 1760); - if ( !useNNUE - || abs(eg_value(pos.psq_score())) * 5 > (850 + pos.non_pawn_material() / 64) * (5 + pos.rule50_count())) - v = Evaluation(pos).value(); // classical + if (useClassical) + v = Evaluation(pos).value(); else { - int scale = 883 - + 32 * pos.count() - + 32 * pos.non_pawn_material() / 1024; + int nnueComplexity; + int scale = 1076 + 96 * pos.non_pawn_material() / 5120; - v = NNUE::evaluate(pos, true) * scale / 1024; // NNUE + Color stm = pos.side_to_move(); + Value optimism = pos.this_thread()->optimism[stm]; - if (pos.is_chess960()) - v += fix_FRC(pos); + Value nnue = NNUE::evaluate(pos, true, &nnueComplexity); + + // Blend nnue complexity with (semi)classical complexity + nnueComplexity = ( 412 * nnueComplexity + + 428 * abs(psq - nnue) + + (optimism > 0 ? int(optimism) * int(psq - nnue) : 0) + ) / 1024; + + // Return hybrid NNUE complexity to caller + if (complexity) + *complexity = nnueComplexity; + + optimism = optimism * (278 + nnueComplexity) / 256; + v = (nnue * scale + optimism * (scale - 755)) / 1024; } // Damp down the evaluation linearly when shuffling - v = v * (100 - pos.rule50_count()) / 100; + v = v * (197 - pos.rule50_count()) / 214; // Guarantee evaluation does not hit the tablebase range v = std::clamp(v, VALUE_TB_LOSS_IN_MAX_PLY + 1, VALUE_TB_WIN_IN_MAX_PLY - 1); + // When not using NNUE, return classical complexity to caller + if (complexity && useClassical) + *complexity = abs(v - psq); + return v; } @@ -1125,7 +1114,10 @@ std::string Eval::trace(Position& pos) { std::memset(scores, 0, sizeof(scores)); - pos.this_thread()->trend = SCORE_ZERO; // Reset any dynamic contempt + // Reset any global variable used in eval + pos.this_thread()->bestValue = VALUE_ZERO; + pos.this_thread()->optimism[WHITE] = VALUE_ZERO; + pos.this_thread()->optimism[BLACK] = VALUE_ZERO; v = Evaluation(pos).value();