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, int pvLine = 0);
int64_t nodes;
Value pv_score;
/// Local functions
- Value id_loop(Position& pos, Move searchMoves[]);
+ Move id_loop(Position& pos, Move searchMoves[], Move* ponderMove);
Value root_search(Position& pos, SearchStack* ss, Value alpha, Value beta, Depth depth, RootMoveList& rml);
template <NodeType PvNode, bool SpNode>
void ponderhit();
void wait_for_stop_or_ponderhit();
void init_ss_array(SearchStack* ss, int size);
- void print_pv_info(const Position& pos, Move pv[], Value alpha, Value beta, Value value);
#if !defined(_MSC_VER)
void* init_thread(void* threadID);
MultiPV = Options["MultiPV"].value<int>();
UseLogFile = Options["Use Search Log"].value<bool>();
- if (UseLogFile)
- LogFile.open(Options["Search Log Filename"].value<std::string>().c_str(), std::ios::out | std::ios::app);
-
read_weights(pos.side_to_move());
// Set the number of active threads
// Write search information to log file
if (UseLogFile)
- LogFile << "Searching: " << pos.to_fen() << endl
- << "infinite: " << infinite
- << " ponder: " << ponder
- << " time: " << myTime
+ {
+ std::string name = Options["Search Log Filename"].value<std::string>();
+ LogFile.open(name.c_str(), std::ios::out | std::ios::app);
+
+ LogFile << "Searching: " << pos.to_fen()
+ << "\ninfinite: " << infinite
+ << " ponder: " << ponder
+ << " time: " << myTime
<< " increment: " << myIncrement
<< " moves to go: " << movesToGo << endl;
+ }
// We're ready to start thinking. Call the iterative deepening loop function
- id_loop(pos, searchMoves);
+ Move ponderMove = MOVE_NONE;
+ Move bestMove = id_loop(pos, searchMoves, &ponderMove);
+
+ // Print final search statistics
+ cout << "info nodes " << pos.nodes_searched()
+ << " nps " << nps(pos)
+ << " time " << current_search_time() << endl;
if (UseLogFile)
+ {
+ LogFile << "\nNodes: " << pos.nodes_searched()
+ << "\nNodes/second: " << nps(pos)
+ << "\nBest move: " << move_to_san(pos, bestMove);
+
+ StateInfo st;
+ pos.do_move(bestMove, st);
+ LogFile << "\nPonder move: "
+ << move_to_san(pos, ponderMove) // Works also with MOVE_NONE
+ << endl;
+
LogFile.close();
+ }
// This makes all the threads to go to sleep
ThreadsMgr.set_active_threads(1);
+ // If we are pondering or in infinite search, we shouldn't print the
+ // best move before we are told to do so.
+ if (!AbortSearch && (PonderSearch || InfiniteSearch))
+ wait_for_stop_or_ponderhit();
+
+ // Could be both MOVE_NONE when searching on a stalemate position
+ cout << "bestmove " << bestMove << " ponder " << ponderMove << endl;
+
return !Quit;
}
// been consumed, the user stops the search, or the maximum search depth is
// reached.
- Value id_loop(Position& pos, Move searchMoves[]) {
+ Move id_loop(Position& pos, Move searchMoves[], Move* ponderMove) {
SearchStack ss[PLY_MAX_PLUS_2];
Depth depth;
Move EasyMove = MOVE_NONE;
Value value, alpha = -VALUE_INFINITE, beta = VALUE_INFINITE;
- // Moves to search are verified, copied, scored and sorted
+ // Moves to search are verified, scored and sorted
RootMoveList rml(pos, searchMoves);
// Handle special case of searching on a mate/stale position
if (rml.size() == 0)
{
- if (PonderSearch)
- wait_for_stop_or_ponderhit();
+ Value s = (pos.is_check() ? -VALUE_MATE : VALUE_DRAW);
- return pos.is_check() ? -VALUE_MATE : VALUE_DRAW;
- }
+ cout << "info depth " << 1
+ << " score " << value_to_uci(s) << endl;
- // Print RootMoveList startup scoring to the standard output,
- // so to output information also for iteration 1.
- cout << set960(pos.is_chess960()) // Is enough to set once at the beginning
- << "info depth " << 1
- << "\ninfo depth " << 1
- << " score " << value_to_uci(rml[0].pv_score)
- << " time " << current_search_time()
- << " nodes " << pos.nodes_searched()
- << " nps " << nps(pos)
- << " pv " << rml[0].pv[0] << "\n";
+ return MOVE_NONE;
+ }
// Initialize
TT.new_search();
ValueByIteration[1] = rml[0].pv_score;
Iteration = 1;
+ // Send initial RootMoveList scoring (iteration 1)
+ cout << set960(pos.is_chess960()) // Is enough to set once at the beginning
+ << "info depth " << Iteration
+ << "\n" << rml[0].pv_info_to_uci(pos, alpha, beta) << endl;
+
// Is one move significantly better than others after initial scoring ?
if ( rml.size() == 1
|| rml[0].pv_score > rml[1].pv_score + EasyMoveMargin)
break;
}
- // If we are pondering or in infinite search, we shouldn't print the
- // best move before we are told to do so.
- if (!AbortSearch && (PonderSearch || InfiniteSearch))
- wait_for_stop_or_ponderhit();
- else
- // Print final search statistics
- cout << "info nodes " << pos.nodes_searched()
- << " nps " << nps(pos)
- << " time " << current_search_time() << endl;
-
- // Print the best move and the ponder move to the standard output
- cout << "bestmove " << rml[0].pv[0];
-
- if (rml[0].pv[1] != MOVE_NONE)
- cout << " ponder " << rml[0].pv[1];
-
- cout << endl;
-
- if (UseLogFile)
- {
- if (dbg_show_mean)
- dbg_print_mean(LogFile);
-
- if (dbg_show_hit_rate)
- dbg_print_hit_rate(LogFile);
-
- LogFile << "\nNodes: " << pos.nodes_searched()
- << "\nNodes/second: " << nps(pos)
- << "\nBest move: " << move_to_san(pos, rml[0].pv[0]);
-
- StateInfo st;
- pos.do_move(rml[0].pv[0], st);
- LogFile << "\nPonder move: "
- << move_to_san(pos, rml[0].pv[1]) // Works also with MOVE_NONE
- << endl;
- }
- return rml[0].pv_score;
+ *ponderMove = rml[0].pv[1];
+ return rml[0].pv[0];
}
rml[i].pv_score = value;
rml[i].extract_pv_from_tt(pos);
- // Print information to the standard output
- print_pv_info(pos, rml[i].pv, alpha, beta, value);
+ // Inform GUI that PV has changed
+ cout << rml[i].pv_info_to_uci(pos, alpha, beta) << endl;
// Prepare for a research after a fail high, each time with a wider window
beta = Min(beta + AspirationDelta * (1 << researchCountFH), VALUE_INFINITE);
rml[i].pv_score = value;
rml[i].extract_pv_from_tt(pos);
- 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]++;
+ // 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]++;
- // Print information to the standard output
- print_pv_info(pos, rml[i].pv, alpha, beta, value);
+ // 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)
+ {
// 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);
if (AspirationFailLow && StopOnPonderhit)
StopOnPonderhit = false;
- }
+
+ } // Root moves loop
// Can we exit fail low loop ?
if (AbortSearch || !AspirationFailLow)
}
- // value_to_uci() converts a value to a string suitable for use with the UCI protocol
+ // value_to_uci() converts a value to a string suitable for use with the UCI
+ // protocol specifications:
+ //
+ // cp <x> The score from the engine's point of view in centipawns.
+ // mate <y> Mate in y moves, not plies. If the engine is getting mated
+ // use negative values for y.
std::string value_to_uci(Value v) {
std::stringstream s;
if (abs(v) < VALUE_MATE - PLY_MAX * ONE_PLY)
- s << "cp " << int(v) * 100 / int(PawnValueMidgame); // Scale to pawn = 100
+ s << "cp " << int(v) * 100 / int(PawnValueMidgame); // Scale to centipawns
else
s << "mate " << (v > 0 ? (VALUE_MATE - v + 1) / 2 : -(VALUE_MATE + v) / 2 );
}
- // print_pv_info() prints to standard output and eventually to log file information on
- // the current PV line. It is called at each iteration or after a new pv is found.
-
- void print_pv_info(const Position& pos, Move pv[], Value alpha, Value beta, Value value) {
-
- cout << "info depth " << Iteration
- << " score " << value_to_uci(value)
- << (value >= beta ? " lowerbound" : value <= alpha ? " upperbound" : "")
- << " time " << current_search_time()
- << " nodes " << pos.nodes_searched()
- << " nps " << nps(pos)
- << " pv ";
-
- for (Move* m = pv; *m != MOVE_NONE; m++)
- cout << *m << " ";
-
- cout << endl;
-
- if (UseLogFile)
- {
- ValueType t = value >= beta ? VALUE_TYPE_LOWER :
- value <= alpha ? VALUE_TYPE_UPPER : VALUE_TYPE_EXACT;
-
- LogFile << pretty_pv(pos, current_search_time(), Iteration, value, t, pv) << endl;
- }
- }
-
-
// init_thread() is the function which is called when a new thread is
// launched. It simply calls the idle_loop() function with the supplied
// threadID. There are two versions of this function; one for POSIX
do pos.undo_move(pv[--ply]); while (ply);
}
+ // pv_info_to_uci() returns a string with information on the current PV line
+ // 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, int pvLine) {
+
+ std::stringstream s;
+
+ 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()
+ << " nps " << nps(pos)
+ << " pv ";
+
+ for (Move* m = pv; *m != MOVE_NONE; m++)
+ s << *m << " ";
+
+ if (UseLogFile && pvLine == 0)
+ {
+ ValueType t = pv_score >= beta ? VALUE_TYPE_LOWER :
+ pv_score <= alpha ? VALUE_TYPE_UPPER : VALUE_TYPE_EXACT;
+
+ LogFile << pretty_pv(pos, current_search_time(), Iteration, pv_score, t, pv) << endl;
+ }
+ return s.str();
+ }
+
RootMoveList::RootMoveList(Position& pos, Move searchMoves[]) {