// Init reductions array
for (hd = 1; hd < 64; hd++) for (mc = 1; mc < 64; mc++)
{
- double pvRed = log(double(hd)) * log(double(mc)) / 3.0;
- double nonPVRed = log(double(hd)) * log(double(mc)) / 1.5;
+ double pvRed = 0.33 + log(double(hd)) * log(double(mc)) / 4.5;
+ double nonPVRed = 0.33 + log(double(hd)) * log(double(mc)) / 2.25;
ReductionMatrix[PV][hd][mc] = (int8_t) ( pvRed >= 1.0 ? floor( pvRed * int(OnePly)) : 0);
ReductionMatrix[NonPV][hd][mc] = (int8_t) (nonPVRed >= 1.0 ? floor(nonPVRed * int(OnePly)) : 0);
}
currentMove = threatMove = bestMove = MOVE_NONE;
reduction = Depth(0);
- eval = VALUE_NONE;
}
// SearchStack::initKillers() initializes killers for a search stack entry
/// search-related global variables, and calls root_search(). It returns false
/// when a quit command is received during the search.
-bool think(const Position& pos, bool infinite, bool ponder, int side_to_move,
- int time[], int increment[], int movesToGo, int maxDepth,
- int maxNodes, int maxTime, Move searchMoves[]) {
+bool think(const Position& pos, bool infinite, bool ponder, int time[], int increment[],
+ int movesToGo, int maxDepth, int maxNodes, int maxTime, Move searchMoves[]) {
// Initialize global search variables
StopOnPonderhit = AbortSearch = Quit = AspirationFailLow = false;
TM.wake_sleeping_threads();
// Set thinking time
- int myTime = time[side_to_move];
- int myIncrement = increment[side_to_move];
+ int myTime = time[pos.side_to_move()];
+ int myIncrement = increment[pos.side_to_move()];
if (UseTimeManagement)
{
if (!movesToGo) // Sudden death time control
// Step 5. Evaluate the position statically
// At root we do this only to get reference value for child nodes
- if (!isCheck)
- ss->eval = evaluate(pos, ei);
+ ss->eval = isCheck ? VALUE_NONE : evaluate(pos, ei);
// Step 6. Razoring (omitted at root)
// Step 7. Static null move pruning (omitted at root)
refinedValue = refine_eval(tte, ss->eval, ply); // Enhance accuracy with TT value if possible
update_gains(pos, (ss-1)->currentMove, (ss-1)->eval, ss->eval);
}
+ else
+ ss->eval = VALUE_NONE;
// Step 6. Razoring (is omitted in PV nodes)
if ( !PvNode
TM.incrementNodeCounter(pos.thread());
ss->bestMove = ss->currentMove = MOVE_NONE;
- ss->eval = VALUE_NONE;
// Check for an instant draw or maximum ply reached
if (pos.is_draw() || ply >= PLY_MAX - 1)
if (isCheck)
{
bestValue = futilityBase = -VALUE_INFINITE;
+ ss->eval = VALUE_NONE;
deepChecks = enoughMaterial = false;
}
else
// Find a quick score for the move
init_ss_array(ss, PLY_MAX_PLUS_2);
+ ss[0].eval = VALUE_NONE;
+ ss[0].currentMove = cur->move;
pos.do_move(cur->move, st);
moves[count].move = cur->move;
moves[count].score = -qsearch<PV>(pos, ss+1, -VALUE_INFINITE, VALUE_INFINITE, Depth(0), 1);