/*
Stockfish, a UCI chess playing engine derived from Glaurung 2.1
- Copyright (C) 2004-2022 The Stockfish developers (see AUTHORS file)
+ Copyright (C) 2004-2023 The Stockfish developers (see AUTHORS file)
Stockfish is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
-#include <cassert>
+#include "thread.h"
-#include <algorithm> // For std::count
+#include <algorithm>
+#include <cassert>
+#include <cstdlib>
+#include <deque>
+#include <initializer_list>
+#include <map>
+#include <memory>
+#include <utility>
+
+#include "evaluate.h"
+#include "misc.h"
#include "movegen.h"
#include "search.h"
-#include "thread.h"
-#include "uci.h"
#include "syzygy/tbprobe.h"
#include "tt.h"
+#include "uci.h"
namespace Stockfish {
-ThreadPool Threads; // Global object
+ThreadPool Threads; // Global object
-/// Thread constructor launches the thread and waits until it goes to sleep
-/// in idle_loop(). Note that 'searching' and 'exit' should be already set.
+// Constructor launches the thread and waits until it goes to sleep
+// in idle_loop(). Note that 'searching' and 'exit' should be already set.
+Thread::Thread(size_t n) :
+ idx(n),
+ stdThread(&Thread::idle_loop, this) {
-Thread::Thread(size_t n) : idx(n), stdThread(&Thread::idle_loop, this) {
-
- wait_for_search_finished();
+ wait_for_search_finished();
}
-/// Thread destructor wakes up the thread in idle_loop() and waits
-/// for its termination. Thread should be already waiting.
-
+// Destructor wakes up the thread in idle_loop() and waits
+// for its termination. Thread should be already waiting.
Thread::~Thread() {
- assert(!searching);
+ assert(!searching);
- exit = true;
- start_searching();
- stdThread.join();
+ exit = true;
+ start_searching();
+ stdThread.join();
}
-/// Thread::clear() reset histories, usually before a new game
-
+// Reset histories, usually before a new game
void Thread::clear() {
- counterMoves.fill(MOVE_NONE);
- mainHistory.fill(0);
- captureHistory.fill(0);
- previousDepth = 0;
+ counterMoves.fill(MOVE_NONE);
+ mainHistory.fill(0);
+ captureHistory.fill(0);
- for (bool inCheck : { false, true })
- for (StatsType c : { NoCaptures, Captures })
- for (auto& to : continuationHistory[inCheck][c])
- for (auto& h : to)
- h->fill(-71);
+ for (bool inCheck : {false, true})
+ for (StatsType c : {NoCaptures, Captures})
+ for (auto& to : continuationHistory[inCheck][c])
+ for (auto& h : to)
+ h->fill(-71);
}
-/// Thread::start_searching() wakes up the thread that will start the search
-
+// Wakes up the thread that will start the search
void Thread::start_searching() {
-
- std::lock_guard<std::mutex> lk(mutex);
- searching = true;
- cv.notify_one(); // Wake up the thread in idle_loop()
+ mutex.lock();
+ searching = true;
+ mutex.unlock(); // Unlock before notifying saves a few CPU-cycles
+ cv.notify_one(); // Wake up the thread in idle_loop()
}
-/// Thread::wait_for_search_finished() blocks on the condition variable
-/// until the thread has finished searching.
-
+// Blocks on the condition variable
+// until the thread has finished searching.
void Thread::wait_for_search_finished() {
- std::unique_lock<std::mutex> lk(mutex);
- cv.wait(lk, [&]{ return !searching; });
+ std::unique_lock<std::mutex> lk(mutex);
+ cv.wait(lk, [&] { return !searching; });
}
-/// Thread::idle_loop() is where the thread is parked, blocked on the
-/// condition variable, when it has no work to do.
+// Thread gets parked here, blocked on the
+// condition variable, when it has no work to do.
void Thread::idle_loop() {
- // If OS already scheduled us on a different group than 0 then don't overwrite
- // the choice, eventually we are one of many one-threaded processes running on
- // some Windows NUMA hardware, for instance in fishtest. To make it simple,
- // just check if running threads are below a threshold, in this case all this
- // NUMA machinery is not needed.
- if (Options["Threads"] > 8)
- WinProcGroup::bindThisThread(idx);
+ // If OS already scheduled us on a different group than 0 then don't overwrite
+ // the choice, eventually we are one of many one-threaded processes running on
+ // some Windows NUMA hardware, for instance in fishtest. To make it simple,
+ // just check if running threads are below a threshold, in this case, all this
+ // NUMA machinery is not needed.
+ if (Options["Threads"] > 8)
+ WinProcGroup::bindThisThread(idx);
- while (true)
- {
- std::unique_lock<std::mutex> lk(mutex);
- searching = false;
- cv.notify_one(); // Wake up anyone waiting for search finished
- cv.wait(lk, [&]{ return searching; });
+ while (true)
+ {
+ std::unique_lock<std::mutex> lk(mutex);
+ searching = false;
+ cv.notify_one(); // Wake up anyone waiting for search finished
+ cv.wait(lk, [&] { return searching; });
- if (exit)
- return;
+ if (exit)
+ return;
- lk.unlock();
+ lk.unlock();
- search();
- }
+ search();
+ }
}
-/// ThreadPool::set() creates/destroys threads to match the requested number.
-/// Created and launched threads will immediately go to sleep in idle_loop.
-/// Upon resizing, threads are recreated to allow for binding if necessary.
-
+// Creates/destroys threads to match the requested number.
+// Created and launched threads will immediately go to sleep in idle_loop.
+// Upon resizing, threads are recreated to allow for binding if necessary.
void ThreadPool::set(size_t requested) {
- if (size() > 0) // destroy any existing thread(s)
- {
- main()->wait_for_search_finished();
+ if (threads.size() > 0) // destroy any existing thread(s)
+ {
+ main()->wait_for_search_finished();
- while (size() > 0)
- delete back(), pop_back();
- }
+ while (threads.size() > 0)
+ delete threads.back(), threads.pop_back();
+ }
- if (requested > 0) // create new thread(s)
- {
- push_back(new MainThread(0));
+ if (requested > 0) // create new thread(s)
+ {
+ threads.push_back(new MainThread(0));
- while (size() < requested)
- push_back(new Thread(size()));
- clear();
+ while (threads.size() < requested)
+ threads.push_back(new Thread(threads.size()));
+ clear();
- // Reallocate the hash with the new threadpool size
- TT.resize(size_t(Options["Hash"]));
+ // Reallocate the hash with the new threadpool size
+ TT.resize(size_t(Options["Hash"]));
- // Init thread number dependent search params.
- Search::init();
- }
+ // Init thread number dependent search params.
+ Search::init();
+ }
}
-/// ThreadPool::clear() sets threadPool data to initial values
-
+// Sets threadPool data to initial values
void ThreadPool::clear() {
- for (Thread* th : *this)
- th->clear();
+ for (Thread* th : threads)
+ th->clear();
- main()->callsCnt = 0;
- main()->bestPreviousScore = VALUE_INFINITE;
- main()->bestPreviousAverageScore = VALUE_INFINITE;
- main()->previousTimeReduction = 1.0;
+ main()->callsCnt = 0;
+ main()->bestPreviousScore = VALUE_INFINITE;
+ main()->bestPreviousAverageScore = VALUE_INFINITE;
+ main()->previousTimeReduction = 1.0;
}
-/// ThreadPool::start_thinking() wakes up main thread waiting in idle_loop() and
-/// returns immediately. Main thread will wake up other threads and start the search.
-
-void ThreadPool::start_thinking(Position& pos, StateListPtr& states,
- const Search::LimitsType& limits, bool ponderMode) {
-
- main()->wait_for_search_finished();
-
- main()->stopOnPonderhit = stop = false;
- increaseDepth = true;
- main()->ponder = ponderMode;
- Search::Limits = limits;
- Search::RootMoves rootMoves;
-
- for (const auto& m : MoveList<LEGAL>(pos))
- if ( limits.searchmoves.empty()
- || std::count(limits.searchmoves.begin(), limits.searchmoves.end(), m))
- rootMoves.emplace_back(m);
-
- if (!rootMoves.empty())
- Tablebases::rank_root_moves(pos, rootMoves);
-
- // After ownership transfer 'states' becomes empty, so if we stop the search
- // and call 'go' again without setting a new position states.get() == NULL.
- assert(states.get() || setupStates.get());
-
- if (states.get())
- setupStates = std::move(states); // Ownership transfer, states is now empty
-
- // We use Position::set() to set root position across threads. But there are
- // some StateInfo fields (previous, pliesFromNull, capturedPiece) that cannot
- // be deduced from a fen string, so set() clears them and they are set from
- // setupStates->back() later. The rootState is per thread, earlier states are shared
- // since they are read-only.
- for (Thread* th : *this)
- {
- th->nodes = th->tbHits = th->nmpMinPly = th->bestMoveChanges = 0;
- th->rootDepth = th->completedDepth = 0;
- th->rootMoves = rootMoves;
- th->rootPos.set(pos.fen(), pos.is_chess960(), &th->rootState, th);
- th->rootState = setupStates->back();
- }
-
- main()->start_searching();
+// Wakes up main thread waiting in idle_loop() and
+// returns immediately. Main thread will wake up other threads and start the search.
+void ThreadPool::start_thinking(Position& pos,
+ StateListPtr& states,
+ const Search::LimitsType& limits,
+ bool ponderMode) {
+
+ main()->wait_for_search_finished();
+
+ main()->stopOnPonderhit = stop = false;
+ increaseDepth = true;
+ main()->ponder = ponderMode;
+ Search::Limits = limits;
+ Search::RootMoves rootMoves;
+
+ for (const auto& m : MoveList<LEGAL>(pos))
+ if (limits.searchmoves.empty()
+ || std::count(limits.searchmoves.begin(), limits.searchmoves.end(), m))
+ rootMoves.emplace_back(m);
+
+ if (!rootMoves.empty())
+ Tablebases::rank_root_moves(pos, rootMoves);
+
+ // After ownership transfer 'states' becomes empty, so if we stop the search
+ // and call 'go' again without setting a new position states.get() == nullptr.
+ assert(states.get() || setupStates.get());
+
+ if (states.get())
+ setupStates = std::move(states); // Ownership transfer, states is now empty
+
+ // We use Position::set() to set root position across threads. But there are
+ // some StateInfo fields (previous, pliesFromNull, capturedPiece) that cannot
+ // be deduced from a fen string, so set() clears them and they are set from
+ // setupStates->back() later. The rootState is per thread, earlier states are shared
+ // since they are read-only.
+ for (Thread* th : threads)
+ {
+ th->nodes = th->tbHits = th->nmpMinPly = th->bestMoveChanges = 0;
+ th->rootDepth = th->completedDepth = 0;
+ th->rootMoves = rootMoves;
+ th->rootPos.set(pos.fen(), pos.is_chess960(), &th->rootState, th);
+ th->rootState = setupStates->back();
+ th->rootSimpleEval = Eval::simple_eval(pos, pos.side_to_move());
+ }
+
+ main()->start_searching();
}
Thread* ThreadPool::get_best_thread() const {
- Thread* bestThread = front();
+ Thread* bestThread = threads.front();
std::map<Move, int64_t> votes;
- Value minScore = VALUE_NONE;
+ Value minScore = VALUE_NONE;
- // Find minimum score of all threads
- for (Thread* th: *this)
+ // Find the minimum score of all threads
+ for (Thread* th : threads)
minScore = std::min(minScore, th->rootMoves[0].score);
// Vote according to score and depth, and select the best thread
auto thread_value = [minScore](Thread* th) {
- return (th->rootMoves[0].score - minScore + 14) * int(th->completedDepth);
- };
+ return (th->rootMoves[0].score - minScore + 14) * int(th->completedDepth);
+ };
- for (Thread* th : *this)
+ for (Thread* th : threads)
votes[th->rootMoves[0].pv[0]] += thread_value(th);
- for (Thread* th : *this)
+ for (Thread* th : threads)
if (abs(bestThread->rootMoves[0].score) >= VALUE_TB_WIN_IN_MAX_PLY)
{
// Make sure we pick the shortest mate / TB conversion or stave off mate the longest
if (th->rootMoves[0].score > bestThread->rootMoves[0].score)
bestThread = th;
}
- else if ( th->rootMoves[0].score >= VALUE_TB_WIN_IN_MAX_PLY
- || ( th->rootMoves[0].score > VALUE_TB_LOSS_IN_MAX_PLY
- && ( votes[th->rootMoves[0].pv[0]] > votes[bestThread->rootMoves[0].pv[0]]
- || ( votes[th->rootMoves[0].pv[0]] == votes[bestThread->rootMoves[0].pv[0]]
- && thread_value(th) > thread_value(bestThread)))))
+ else if (th->rootMoves[0].score >= VALUE_TB_WIN_IN_MAX_PLY
+ || (th->rootMoves[0].score > VALUE_TB_LOSS_IN_MAX_PLY
+ && (votes[th->rootMoves[0].pv[0]] > votes[bestThread->rootMoves[0].pv[0]]
+ || (votes[th->rootMoves[0].pv[0]] == votes[bestThread->rootMoves[0].pv[0]]
+ && thread_value(th) * int(th->rootMoves[0].pv.size() > 2)
+ > thread_value(bestThread)
+ * int(bestThread->rootMoves[0].pv.size() > 2)))))
bestThread = th;
return bestThread;
}
-/// Start non-main threads
+// Start non-main threads
void ThreadPool::start_searching() {
- for (Thread* th : *this)
- if (th != front())
+ for (Thread* th : threads)
+ if (th != threads.front())
th->start_searching();
}
-/// Wait for non-main threads
+// Wait for non-main threads
void ThreadPool::wait_for_search_finished() const {
- for (Thread* th : *this)
- if (th != front())
+ for (Thread* th : threads)
+ if (th != threads.front())
th->wait_for_search_finished();
}
-} // namespace Stockfish
+} // namespace Stockfish