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Unify single and multi PV 'new best move' handling

No functional change.

Signed-off-by: Marco Costalba <mcostalba@gmail.com>
This commit is contained in:
Marco Costalba 2010-12-30 12:53:02 +01:00
parent f803f33e63
commit db4a68a99b

View file

@ -129,7 +129,7 @@ namespace {
void extract_pv_from_tt(Position& pos);
void insert_pv_in_tt(Position& pos);
std::string pv_info_to_uci(const Position& pos, Value alpha, Value beta);
std::string pv_info_to_uci(const Position& pos, Value alpha, Value beta, int pvLine = 0);
int64_t nodes;
Value pv_score;
@ -849,41 +849,29 @@ namespace {
rml[i].pv_score = value;
rml[i].extract_pv_from_tt(pos);
// We record how often the best move has been changed in each
// iteration. This information is used for time managment: When
// the best move changes frequently, we allocate some more time.
if (MultiPV == 1 && i > 0)
BestMoveChangesByIteration[Iteration]++;
// Inform GUI that PV has changed, in case of multi-pv UCI protocol
// requires we send all the PV lines properly sorted.
rml.sort_multipv(i);
for (int j = 0; j < Min(MultiPV, (int)rml.size()); j++)
cout << rml[j].pv_info_to_uci(pos, alpha, beta, j) << endl;
// Update alpha. In multi-pv we don't use aspiration window
if (MultiPV == 1)
{
// We record how often the best move has been changed in each
// iteration. This information is used for time managment: When
// the best move changes frequently, we allocate some more time.
if (i > 0)
BestMoveChangesByIteration[Iteration]++;
// Inform GUI that PV has changed
cout << rml[i].pv_info_to_uci(pos, alpha, beta) << endl;
// Raise alpha to setup proper non-pv search upper bound
if (value > alpha)
alpha = value;
}
else // MultiPV > 1
{
rml.sort_multipv(i);
for (int j = 0; j < Min(MultiPV, (int)rml.size()); j++)
{
cout << "info multipv " << j + 1
<< " score " << value_to_uci(rml[j].pv_score)
<< " depth " << (j <= i ? Iteration : Iteration - 1)
<< " time " << current_search_time()
<< " nodes " << pos.nodes_searched()
<< " nps " << nps(pos)
<< " pv ";
for (int k = 0; rml[j].pv[k] != MOVE_NONE && k < PLY_MAX; k++)
cout << rml[j].pv[k] << " ";
cout << endl;
}
else // Set alpha equal to minimum score among the PV lines
alpha = rml[Min(i, MultiPV - 1)].pv_score;
}
} // PV move or new best move
assert(alpha >= oldAlpha);
@ -892,7 +880,8 @@ namespace {
if (AspirationFailLow && StopOnPonderhit)
StopOnPonderhit = false;
}
} // Root moves loop
// Can we exit fail low loop ?
if (AbortSearch || !AspirationFailLow)
@ -2625,12 +2614,13 @@ split_point_start: // At split points actual search starts from here
// formatted according to UCI specification and eventually writes the info
// to a log file. It is called at each iteration or after a new pv is found.
std::string RootMove::pv_info_to_uci(const Position& pos, Value alpha, Value beta) {
std::string RootMove::pv_info_to_uci(const Position& pos, Value alpha, Value beta, int pvLine) {
std::stringstream s;
s << "info depth " << Iteration
<< " score " << value_to_uci(pv_score)
s << "info depth " << Iteration // FIXME
<< " multipv " << pvLine + 1
<< " score " << value_to_uci(pv_score)
<< (pv_score >= beta ? " lowerbound" : pv_score <= alpha ? " upperbound" : "")
<< " time " << current_search_time()
<< " nodes " << pos.nodes_searched()
@ -2640,7 +2630,7 @@ split_point_start: // At split points actual search starts from here
for (Move* m = pv; *m != MOVE_NONE; m++)
s << *m << " ";
if (UseLogFile)
if (UseLogFile && pvLine == 0)
{
ValueType t = pv_score >= beta ? VALUE_TYPE_LOWER :
pv_score <= alpha ? VALUE_TYPE_UPPER : VALUE_TYPE_EXACT;