#include <cassert>
#include "history.h"
+#include "evaluate.h"
#include "movegen.h"
#include "movepick.h"
#include "search.h"
int MainSearchPhaseIndex;
int EvasionsPhaseIndex;
int QsearchWithChecksPhaseIndex;
+ int QsearchNoCapturesPhaseIndex;
int QsearchWithoutChecksPhaseIndex;
+ int NoMovesPhaseIndex;
}
/// search captures, promotions and some checks) and about how important good
/// move ordering is at the current node.
-MovePicker::MovePicker(const Position& p, bool pvnode, Move ttm, Move mk,
- Move k1, Move k2, Depth d) : pos(p) {
- pvNode = pvnode;
+MovePicker::MovePicker(const Position& p, bool pv, Move ttm,
+ const SearchStack& ss, Depth d, EvalInfo* ei) : pos(p) {
+ pvNode = pv;
ttMove = ttm;
- mateKiller = (mk == ttm)? MOVE_NONE : mk;
- killer1 = k1;
- killer2 = k2;
+ mateKiller = (ss.mateKiller == ttm)? MOVE_NONE : ss.mateKiller;
+ killer1 = ss.killers[0];
+ killer2 = ss.killers[1];
depth = d;
movesPicked = 0;
numOfMoves = 0;
numOfBadCaptures = 0;
- dc = p.discovered_check_candidates(p.side_to_move());
+
+ // With EvalInfo we are able to know how many captures are possible before
+ // generating them. So avoid generating in case we know are zero.
+ Color us = pos.side_to_move();
+ Color them = opposite_color(us);
+ bool noCaptures = ei
+ && (ei->attackedBy[us][0] & pos.pieces_of_color(them)) == 0
+ && !ei->mi->specialized_eval_exists()
+ && (pos.ep_square() == SQ_NONE)
+ && !pos.has_pawn_on_7th(us);
if (p.is_check())
- phaseIndex = EvasionsPhaseIndex;
+ phaseIndex = EvasionsPhaseIndex;
else if (depth > Depth(0))
- phaseIndex = MainSearchPhaseIndex;
+ phaseIndex = MainSearchPhaseIndex;
else if (depth == Depth(0))
- phaseIndex = QsearchWithChecksPhaseIndex;
+ phaseIndex = (noCaptures ? QsearchNoCapturesPhaseIndex : QsearchWithChecksPhaseIndex);
else
- phaseIndex = QsearchWithoutChecksPhaseIndex;
+ phaseIndex = (noCaptures ? NoMovesPhaseIndex : QsearchWithoutChecksPhaseIndex);
+ dc = p.discovered_check_candidates(us);
pinned = p.pinned_pieces(p.side_to_move());
finished = false;
case PH_GOOD_CAPTURES:
numOfMoves = generate_captures(pos, moves);
score_captures();
- capSquares = EmptyBoardBB;
movesPicked = 0;
break;
case PH_BAD_CAPTURES:
- badCapturesPicked = 0;
+ movesPicked = 0;
break;
case PH_NONCAPTURES:
else
hs = H.move_ordering_score(pos.piece_on(move_from(m)), m);
- // Ensure moves in history are always sorted as first
+ // Ensure history is always preferred to pst
if (hs > 0)
hs += 1000;
+ // pst based scoring
moves[i].score = hs + pos.mg_pst_delta(m);
}
}
} else
moves[i].score = H.move_ordering_score(pos.piece_on(move_from(m)), m);
}
- // FIXME try psqt also here
}
void MovePicker::score_qcaptures() {
}
-/// find_best_index() loops across the moves and returns index of\r
-/// the highest scored one. There is also a second version that\r
-/// lowers the priority of moves that attack the same square,\r
-/// so that if the best move that attack a square fails the next\r
+/// find_best_index() loops across the moves and returns index of
+/// the highest scored one. There is also a second version that
+/// lowers the priority of moves that attack the same square,
+/// so that if the best move that attack a square fails the next
/// move picked attacks a different square if any, not the same one.
int MovePicker::find_best_index() {
- int bestScore = -10000000, bestIndex = -1;
+ assert(movesPicked < numOfMoves);
- for (int i = movesPicked; i < numOfMoves; i++)
+ int bestIndex = movesPicked, bestScore = moves[movesPicked].score;
+
+ for (int i = movesPicked + 1; i < numOfMoves; i++)
if (moves[i].score > bestScore)
{
bestIndex = i;
return bestIndex;
}
-int MovePicker::find_best_index(Bitboard* squares, int values[]) {\r
-\r
- int hs;\r
- Move m;\r
- Square to;\r
- int bestScore = -10000000, bestIndex = -1;\r
-\r
- for (int i = movesPicked; i < numOfMoves; i++)\r
- {\r
- m = moves[i].move;\r
- to = move_to(m);\r
- \r
- if (!bit_is_set(*squares, to))\r
- {\r
- // Init at first use\r
- set_bit(squares, to);\r
- values[to] = 0;\r
- }\r
-\r
- hs = moves[i].score - values[to];\r
- if (hs > bestScore)\r
- {\r
- bestIndex = i;\r
- bestScore = hs;\r
- }\r
- }\r
-\r
- if (bestIndex != -1)\r
- {\r
- // Raise value of the picked square, so next attack\r
- // to the same square will get low priority.\r
- to = move_to(moves[bestIndex].move);\r
- values[to] += 0xB00;\r
- }\r
- return bestIndex;\r
+int MovePicker::find_best_index(Bitboard* squares, int values[]) {
+
+ assert(movesPicked < numOfMoves);
+
+ int hs;
+ Move m;
+ Square to;
+ int bestScore = -10000000, bestIndex = -1;
+
+ for (int i = movesPicked; i < numOfMoves; i++)
+ {
+ m = moves[i].move;
+ to = move_to(m);
+
+ if (!bit_is_set(*squares, to))
+ {
+ // Init at first use
+ set_bit(squares, to);
+ values[to] = 0;
+ }
+
+ hs = moves[i].score - values[to];
+ if (hs > bestScore)
+ {
+ bestIndex = i;
+ bestScore = hs;
+ }
+ }
+
+ if (bestIndex != -1)
+ {
+ // Raise value of the picked square, so next attack
+ // to the same square will get low priority.
+ to = move_to(moves[bestIndex].move);
+ values[to] += 0xB00;
+ }
+ return bestIndex;
}
Move move;
switch (PhaseTable[phaseIndex]) {
+
case PH_GOOD_CAPTURES:
assert(!pos.is_check());
assert(movesPicked >= 0);
while (movesPicked < numOfMoves)
{
- bestIndex = find_best_index(&capSquares, capSqValues);
-
- if (bestIndex != -1) // Found a good capture
- {
- move = moves[bestIndex].move;
- moves[bestIndex] = moves[movesPicked++];
- if ( move != ttMove
- && move != mateKiller
- && pos.pl_move_is_legal(move, pinned))
- return move;
- }
+ bestIndex = find_best_index();
+ move = moves[bestIndex].move;
+ moves[bestIndex] = moves[movesPicked++];
+ if ( move != ttMove
+ && move != mateKiller
+ && pos.pl_move_is_legal(move, pinned))
+ return move;
}
break;
// been searched and it is not a PV node, we are probably failing low
// anyway, so we just pick the first move from the list.
bestIndex = (pvNode || movesPicked < 12) ? find_best_index() : movesPicked;
-
- if (bestIndex != -1)
- {
- move = moves[bestIndex].move;
- moves[bestIndex] = moves[movesPicked++];
- if ( move != ttMove
- && move != mateKiller
- && pos.pl_move_is_legal(move, pinned))
- return move;
- }
+ move = moves[bestIndex].move;
+ moves[bestIndex] = moves[movesPicked++];
+ if ( move != ttMove
+ && move != mateKiller
+ && pos.pl_move_is_legal(move, pinned))
+ return move;
}
break;
while (movesPicked < numOfMoves)
{
bestIndex = find_best_index();
-
- if (bestIndex != -1)
- {
- move = moves[bestIndex].move;
- moves[bestIndex] = moves[movesPicked++];
- return move;
- }
+ move = moves[bestIndex].move;
+ moves[bestIndex] = moves[movesPicked++];
+ return move;
}
break;
case PH_BAD_CAPTURES:
assert(!pos.is_check());
- assert(badCapturesPicked >= 0);
+ assert(movesPicked >= 0);
// It's probably a good idea to use SEE move ordering here, instead
// of just picking the first move. FIXME
- while (badCapturesPicked < numOfBadCaptures)
+ while (movesPicked < numOfBadCaptures)
{
- move = badCaptures[badCapturesPicked++].move;
+ move = badCaptures[movesPicked++].move;
if ( move != ttMove
&& move != mateKiller
&& pos.pl_move_is_legal(move, pinned))
while (movesPicked < numOfMoves)
{
bestIndex = (movesPicked < 4 ? find_best_index() : movesPicked);
-
- if (bestIndex != -1)
- {
- move = moves[bestIndex].move;
- moves[bestIndex] = moves[movesPicked++];
- // Remember to change the line below if we decide to hash the qsearch!
- // Maybe also postpone the legality check until after futility pruning?
- if (/* move != ttMove && */ pos.pl_move_is_legal(move, pinned))
- return move;
- }
+ move = moves[bestIndex].move;
+ moves[bestIndex] = moves[movesPicked++];
+ // Remember to change the line below if we decide to hash the qsearch!
+ // Maybe also postpone the legality check until after futility pruning?
+ if (/* move != ttMove && */ pos.pl_move_is_legal(move, pinned))
+ return move;
}
break;
/// MovePicker::init_phase_table() initializes the PhaseTable[],
/// MainSearchPhaseIndex, EvasionPhaseIndex, QsearchWithChecksPhaseIndex
-/// and QsearchWithoutChecksPhaseIndex variables. It is only called once
-/// during program startup, and never again while the program is running.
+/// QsearchNoCapturesPhaseIndex, QsearchWithoutChecksPhaseIndex and
+/// NoMovesPhaseIndex variables. It is only called once during program
+/// startup, and never again while the program is running.
void MovePicker::init_phase_table() {
PhaseTable[i++] = PH_QCHECKS;
PhaseTable[i++] = PH_STOP;
+ // Quiescence search with checks only and no captures
+ QsearchNoCapturesPhaseIndex = i - 1;
+ PhaseTable[i++] = PH_QCHECKS;
+ PhaseTable[i++] = PH_STOP;
+
// Quiescence search without checks
QsearchWithoutChecksPhaseIndex = i - 1;
PhaseTable[i++] = PH_QCAPTURES;
PhaseTable[i++] = PH_STOP;
+
+ // Do not generate any move
+ NoMovesPhaseIndex = i - 1;
+ PhaseTable[i++] = PH_STOP;
}