X-Git-Url: https://git.sesse.net/?a=blobdiff_plain;ds=sidebyside;f=src%2Fthread.cpp;h=f620c71c69d2640de29e098ba904f68ddcadd023;hb=c386ce0023f114e387c02a7e36256d8b0a908cd0;hp=5c10eee0635e8ddbf531d3e84577629aa74b0c01;hpb=ba85c59d96d962dddaa0f1a2608ebea2e8ae694b;p=stockfish diff --git a/src/thread.cpp b/src/thread.cpp index 5c10eee0..f620c71c 100644 --- a/src/thread.cpp +++ b/src/thread.cpp @@ -27,23 +27,23 @@ ThreadsManager Threads; // Global object definition namespace { extern "C" { // start_routine() is the C function which is called when a new thread - // is launched. It simply calls idle_loop() with the supplied threadID. + // is launched. It simply calls idle_loop() of the supplied thread. // There are two versions of this function; one for POSIX threads and // one for Windows threads. #if defined(_MSC_VER) - DWORD WINAPI start_routine(LPVOID threadID) { + DWORD WINAPI start_routine(LPVOID thread) { - Threads[*(int*)threadID].idle_loop(NULL); + ((Thread*)thread)->idle_loop(NULL); return 0; } #else - void* start_routine(void* threadID) { + void* start_routine(void* thread) { - Threads[*(int*)threadID].idle_loop(NULL); + ((Thread*)thread)->idle_loop(NULL); return NULL; } @@ -63,9 +63,8 @@ void Thread::wake_up() { } -// cutoff_occurred() checks whether a beta cutoff has occurred in -// the thread's currently active split point, or in some ancestor of -// the current split point. +// cutoff_occurred() checks whether a beta cutoff has occurred in the current +// active split point, or in some ancestor of the split point. bool Thread::cutoff_occurred() const { @@ -126,7 +125,20 @@ void ThreadsManager::set_size(int cnt) { activeThreads = cnt; for (int i = 0; i < MAX_THREADS; i++) - threads[i].do_sleep = !(i < activeThreads); + if (i < activeThreads) + { + // Dynamically allocate pawn and material hash tables according to the + // number of active threads. This avoids preallocating memory for all + // possible threads if only few are used as, for instance, on mobile + // devices where memory is scarce and allocating for MAX_THREADS could + // even result in a crash. + threads[i].pawnTable.init(); + threads[i].materialTable.init(); + + threads[i].do_sleep = false; + } + else + threads[i].do_sleep = true; } @@ -135,14 +147,6 @@ void ThreadsManager::set_size(int cnt) { void ThreadsManager::init() { - // Threads will sent to sleep as soon as created, only main thread is kept alive - set_size(1); - threads[0].state = Thread::SEARCHING; - threads[0].threadID = 0; - - // Allocate pawn and material hash tables for main thread - init_hash_tables(); - // Initialize threads lock, used when allocating slaves during splitting lock_init(&threadsLock); @@ -156,27 +160,30 @@ void ThreadsManager::init() { lock_init(&(threads[i].splitPoints[j].lock)); } - // Create and startup all the threads but the main that is already running + // Initialize main thread's associated data + threads[0].state = Thread::SEARCHING; + threads[0].threadID = 0; + set_size(1); // This makes all the threads but the main to go to sleep + + // Create and launch all the threads but the main that is already running, + // threads will go immediately to sleep. for (int i = 1; i < MAX_THREADS; i++) { - threads[i].state = Thread::INITIALIZING; + threads[i].state = Thread::AVAILABLE; threads[i].threadID = i; #if defined(_MSC_VER) - bool ok = (CreateThread(NULL, 0, start_routine, (LPVOID)&threads[i].threadID , 0, NULL) != NULL); + threads[i].handle = CreateThread(NULL, 0, start_routine, (LPVOID)&threads[i], 0, NULL); + bool ok = (threads[i].handle != NULL); #else - pthread_t pthreadID; - bool ok = (pthread_create(&pthreadID, NULL, start_routine, (void*)&threads[i].threadID) == 0); - pthread_detach(pthreadID); + bool ok = (pthread_create(&threads[i].handle, NULL, start_routine, (void*)&threads[i]) == 0); #endif + if (!ok) { - std::cout << "Failed to create thread number " << i << std::endl; + std::cerr << "Failed to create thread number " << i << std::endl; ::exit(EXIT_FAILURE); } - - // Wait until the thread has finished launching and is gone to sleep - while (threads[i].state == Thread::INITIALIZING) {} } } @@ -192,7 +199,13 @@ void ThreadsManager::exit() { { threads[i].do_terminate = true; threads[i].wake_up(); - while (threads[i].state != Thread::TERMINATED) {} + +#if defined(_MSC_VER) + WaitForSingleObject(threads[i].handle, 0); + CloseHandle(threads[i].handle); +#else + pthread_join(threads[i].handle, NULL); +#endif } // Now we can safely destroy locks and wait conditions @@ -207,22 +220,6 @@ void ThreadsManager::exit() { } -// init_hash_tables() dynamically allocates pawn and material hash tables -// according to the number of active threads. This avoids preallocating -// memory for all possible threads if only few are used as, for instance, -// on mobile devices where memory is scarce and allocating for MAX_THREADS -// threads could even result in a crash. - -void ThreadsManager::init_hash_tables() { - - for (int i = 0; i < activeThreads; i++) - { - threads[i].pawnTable.init(); - threads[i].materialTable.init(); - } -} - - // available_slave_exists() tries to find an idle thread which is available as // a slave for the thread with threadID "master". @@ -306,7 +303,7 @@ Value ThreadsManager::split(Position& pos, SearchStack* ss, Value alpha, Value b threads[i].splitPoint = sp; // This makes the slave to exit from idle_loop() - threads[i].state = Thread::WORKISWAITING; + threads[i].state = Thread::SEARCHING; if (useSleepingThreads) threads[i].wake_up(); @@ -320,7 +317,6 @@ Value ThreadsManager::split(Position& pos, SearchStack* ss, Value alpha, Value b masterThread.splitPoint = sp; masterThread.activeSplitPoints++; - masterThread.state = Thread::WORKISWAITING; // Everything is set up. The master thread enters the idle loop, from // which it will instantly launch a search, because its state is