CheckInfo ci(pos);
const bool leaf = (depth == 2 * ONE_PLY);
- for (const ExtMove& ms : MoveList<LEGAL>(pos))
+ for (const auto& m : MoveList<LEGAL>(pos))
{
if (Root && depth <= ONE_PLY)
cnt = 1, nodes++;
else
{
- pos.do_move(ms.move, st, ci, pos.gives_check(ms.move, ci));
+ pos.do_move(m, st, pos.gives_check(m, ci));
cnt = leaf ? MoveList<LEGAL>(pos).size() : perft<false>(pos, depth - ONE_PLY);
nodes += cnt;
- pos.undo_move(ms.move);
+ pos.undo_move(m);
}
if (Root)
- sync_cout << UCI::move(ms.move, pos.is_chess960()) << ": " << cnt << sync_endl;
+ sync_cout << UCI::move(m, pos.is_chess960()) << ": " << cnt << sync_endl;
}
return nodes;
}
if (RootMoves.empty())
{
- RootMoves.push_back(MOVE_NONE);
+ RootMoves.push_back(RootMove(MOVE_NONE));
sync_cout << "info depth 0 score "
<< UCI::value(RootPos.checkers() ? -VALUE_MATE : VALUE_DRAW)
<< sync_endl;
if (pos.legal(move, ci.pinned))
{
ss->currentMove = move;
- pos.do_move(move, st, ci, pos.gives_check(move, ci));
+ pos.do_move(move, st, pos.gives_check(move, ci));
value = -search<NonPV, false>(pos, ss+1, -rbeta, -rbeta+1, rdepth, !cutNode);
pos.undo_move(move);
if (value >= rbeta)
}
// Speculative prefetch as early as possible
- prefetch((char*)TT.first_entry(pos.key_after(move)));
+ prefetch(TT.first_entry(pos.key_after(move)));
// Check for legality just before making the move
if (!RootNode && !SpNode && !pos.legal(move, ci.pinned))
quietsSearched[quietCount++] = move;
// Step 14. Make the move
- pos.do_move(move, st, ci, givesCheck);
+ pos.do_move(move, st, givesCheck);
// Step 15. Reduced depth search (LMR). If the move fails high it will be
// re-searched at full depth.
continue;
// Speculative prefetch as early as possible
- prefetch((char*)TT.first_entry(pos.key_after(move)));
+ prefetch(TT.first_entry(pos.key_after(move)));
// Check for legality just before making the move
if (!pos.legal(move, ci.pinned))
ss->currentMove = move;
// Make and search the move
- pos.do_move(move, st, ci, givesCheck);
+ pos.do_move(move, st, givesCheck);
value = givesCheck ? -qsearch<NT, true>(pos, ss+1, -beta, -alpha, depth - ONE_PLY)
: -qsearch<NT, false>(pos, ss+1, -beta, -alpha, depth - ONE_PLY);
pos.undo_move(move);
// then we choose the move with the resulting highest score.
for (size_t i = 0; i < multiPV; ++i)
{
- int score = RootMoves[i].score;
-
// This is our magic formula
- score += ( weakness * int(RootMoves[0].score - score)
- + variance * (rng.rand<unsigned>() % weakness)) / 128;
+ int push = ( weakness * int(RootMoves[0].score - RootMoves[i].score)
+ + variance * (rng.rand<unsigned>() % weakness)) / 128;
- if (score > maxScore)
+ if (RootMoves[i].score + push > maxScore)
{
- maxScore = score;
+ maxScore = RootMoves[i].score + push;
best = RootMoves[i].pv[0];
}
}
ss << (v >= beta ? " lowerbound" : v <= alpha ? " upperbound" : "");
ss << " nodes " << pos.nodes_searched()
- << " nps " << pos.nodes_searched() * 1000 / elapsed
- << " tbhits " << TB::Hits
+ << " nps " << pos.nodes_searched() * 1000 / elapsed;
+
+ if (elapsed > 1000) // Earlier makes little sense
+ ss << " hashfull " << TT.hashfull();
+
+ ss << " tbhits " << TB::Hits
<< " time " << elapsed
<< " pv";
if (!ttHit || tte->move() != m) // Don't overwrite correct entries
tte->save(pos.key(), VALUE_NONE, BOUND_NONE, DEPTH_NONE, m, VALUE_NONE, TT.generation());
- pos.do_move(m, *st++);
+ pos.do_move(m, *st++, pos.gives_check(m, CheckInfo(pos)));
}
for (size_t i = pv.size(); i > 0; )
assert(pv.size() == 1);
- pos.do_move(pv[0], st);
+ pos.do_move(pv[0], st, pos.gives_check(pv[0], CheckInfo(pos)));
TTEntry* tte = TT.probe(pos.key(), ttHit);
pos.undo_move(pv[0]);