X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fthread.cpp;h=858a09d9c011bbe57a5b80feef21fe1c1d2eb670;hp=c76b4b707e9f97dfe641670de06021b982481287;hb=76ed0ab5015f41715453a7efcedd57a7a5c962da;hpb=ce84ab6e9dc64e0c137c2785a36e4a345a8a5a95 diff --git a/src/thread.cpp b/src/thread.cpp index c76b4b70..858a09d9 100644 --- a/src/thread.cpp +++ b/src/thread.cpp @@ -29,68 +29,57 @@ using namespace Search; ThreadPool Threads; // Global object -namespace { +// Thread constructor makes some init and launches the thread that will go to +// sleep in idle_loop(). - // Helpers to launch a thread after creation and joining before delete. Outside the - // Thread constructor and destructor because the object must be fully initialized - // when start_routine (and hence virtual idle_loop) is called and when joining. - - template T* new_thread() { - std::thread* th = new T; - *th = std::thread(&T::idle_loop, (T*)th); // Will go to sleep - return (T*)th; - } - - void delete_thread(ThreadBase* th) { - - th->mutex.lock(); - th->exit = true; // Search must be already finished - th->mutex.unlock(); - - th->notify_one(); - th->join(); // Wait for thread termination - delete th; - } +Thread::Thread() { + searching = true; // Avoid a race with start_thinking() + exit = resetCalls = false; + maxPly = callsCnt = 0; + history.clear(); + counterMoves.clear(); + idx = Threads.size(); // Starts from 0 + std::thread::operator=(std::thread(&Thread::idle_loop, this)); } -// ThreadBase::notify_one() wakes up the thread when there is some work to do +// Thread destructor waits for thread termination before deleting -void ThreadBase::notify_one() { +Thread::~Thread() { - std::unique_lock lk(mutex); - sleepCondition.notify_one(); -} + mutex.lock(); + exit = true; // Search must be already finished + mutex.unlock(); + notify_one(); + std::thread::join(); // Wait for thread termination +} -// ThreadBase::wait() set the thread to sleep until 'condition' turns true -void ThreadBase::wait(std::atomic_bool& condition) { +// Thread::join() waits for the thread to finish searching +void Thread::join() { std::unique_lock lk(mutex); - sleepCondition.wait(lk, [&]{ return bool(condition); }); + sleepCondition.wait(lk, [&]{ return !searching; }); } -// ThreadBase::wait_while() set the thread to sleep until 'condition' turns false -void ThreadBase::wait_while(std::atomic_bool& condition) { +// Thread::notify_one() wakes up the thread when there is some work to do + +void Thread::notify_one() { std::unique_lock lk(mutex); - sleepCondition.wait(lk, [&]{ return !condition; }); + sleepCondition.notify_one(); } -// Thread constructor makes some init but does not launch any execution thread, -// which will be started only when the constructor returns. +// Thread::wait() set the thread to sleep until 'condition' turns true -Thread::Thread() { +void Thread::wait(std::atomic_bool& condition) { - searching = resetCallsCnt = false; - maxPly = callsCnt = 0; - history.clear(); - counterMoves.clear(); - idx = Threads.size(); // Starts from 0 + std::unique_lock lk(mutex); + sleepCondition.wait(lk, [&]{ return bool(condition); }); } @@ -102,51 +91,22 @@ void Thread::idle_loop() { { std::unique_lock lk(mutex); - while (!searching && !exit) - sleepCondition.wait(lk); + searching = false; - lk.unlock(); - - if (!exit && searching) - search(); - } -} - - -// MainThread::idle_loop() is where the main thread is parked waiting to be started -// when there is a new search. The main thread will launch all the slave threads. - -void MainThread::idle_loop() { - - while (!exit) - { - std::unique_lock lk(mutex); - - thinking = false; - - while (!thinking && !exit) + while (!searching && !exit) { - sleepCondition.notify_one(); // Wake up the UI thread if needed + sleepCondition.notify_one(); // Wake up main thread if needed sleepCondition.wait(lk); } lk.unlock(); - if (!exit) - think(); + if (!exit && searching) + search(); } } -// MainThread::join() waits for main thread to finish thinking - -void MainThread::join() { - - std::unique_lock lk(mutex); - sleepCondition.wait(lk, [&]{ return !thinking; }); -} - - // ThreadPool::init() is called at startup to create and launch requested threads, // that will go immediately to sleep. We cannot use a constructor because Threads // is a static object and we need a fully initialized engine at this point due to @@ -154,7 +114,7 @@ void MainThread::join() { void ThreadPool::init() { - push_back(new_thread()); + push_back(new MainThread); read_uci_options(); } @@ -165,7 +125,7 @@ void ThreadPool::init() { void ThreadPool::exit() { for (Thread* th : *this) - delete_thread(th); + delete th; clear(); // Get rid of stale pointers } @@ -184,11 +144,11 @@ void ThreadPool::read_uci_options() { assert(requested > 0); while (size() < requested) - push_back(new_thread()); + push_back(new Thread); while (size() > requested) { - delete_thread(back()); + delete back(); pop_back(); } } @@ -210,7 +170,8 @@ int64_t ThreadPool::nodes_searched() { void ThreadPool::start_thinking(const Position& pos, const LimitsType& limits, StateStackPtr& states) { - main()->join(); + for (Thread* th : Threads) + th->join(); Signals.stopOnPonderhit = Signals.firstRootMove = false; Signals.stop = Signals.failedLowAtRoot = false; @@ -229,6 +190,6 @@ void ThreadPool::start_thinking(const Position& pos, const LimitsType& limits, || std::count(limits.searchmoves.begin(), limits.searchmoves.end(), m)) main()->rootMoves.push_back(RootMove(m)); - main()->thinking = true; - main()->notify_one(); // Wake up main thread: 'thinking' must be already set + main()->searching = true; + main()->notify_one(); // Wake up main thread: 'searching' must be already set }