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chromium.googlesource.com/arc/arc:third_party/chromium-ppapi/native_client_sdk/src/libraries/third_party/pthreads-win32/implement.h: [ master, ]
185: DWORD thread; /* Win32 thread ID */
502: ptw32_thread_t * thread;
158: HANDLE threadH; /* Win32 thread handle - POSIX thread is invalid if threadH == 0 */
162: ptw32_mcs_lock_t threadLock; /* Used for serialised access to public thread state */
246: pthread_t ownerThread;
346: void *threads;
350: typedef struct ThreadParms ThreadParms;
352: struct ThreadParms
401: typedef struct ThreadKeyAssoc ThreadKeyAssoc;
403: struct ThreadKeyAssoc
505: ThreadKeyAssoc *nextThread;
507: ThreadKeyAssoc *prevThread;
152: typedef struct ptw32_thread_t_ ptw32_thread_t;
155: struct ptw32_thread_t_
575: #define PTW32_THREAD_REUSE_EMPTY ((ptw32_thread_t *)(size_t) 1)
198: struct pthread_attr_t_
234: struct pthread_mutex_t_
273: struct pthread_mutexattr_t_
302: struct pthread_spinlock_t_
326: struct pthread_barrier_t_
336: struct pthread_barrierattr_t_
341: struct pthread_key_t_
360: struct pthread_cond_t_
378: struct pthread_condattr_t_
385: struct pthread_rwlock_t_
396: struct pthread_rwlockattr_t_
133: PThreadStateInitial = 0, /* Thread not running */
134: PThreadStateRunning, /* Thread alive & kicking */
135: PThreadStateSuspended, /* Thread alive but suspended */
136: PThreadStateCancelPending, /* Thread alive but */
138: PThreadStateCanceling, /* Thread alive but is */
141: PThreadStateExiting, /* Thread alive but exiting */
143: PThreadStateLast, /* All handlers have been run and now */
145: PThreadStateReuse /* In reuse pool. */
147: PThreadState;
957: #define _endthreadex ExitThread
129: * This enumeration represents the state of the thread;
130: * The thread is still "alive" if the numeric value of the
157: unsigned __int64 seqNumber; /* Process-unique thread sequence number */
159: pthread_t ptHandle; /* This thread's permanent pthread_t handle */
160: ptw32_thread_t * prevReuse; /* Links threads on reuse stack */
242: int recursive_count; /* Number of unlocks a thread needs to perform
263: * Node used to manage per-thread lists of currently-held robust mutexes.
407: * This structure creates an association between a thread and a key.
409: * destroy routine for thread specific data registered by a user upon
410: * exiting a thread.
416: * T - Thread that has called pthread_setspecific(Kn)
417: * (head of chain is thread->keys)
436: * general lock (guarding the row) and the thread's general
440: * until both the key is deleted and the thread has called the
442: * to be freed as soon as either thread or key is concluded.
445: * key and thread locks are acquired consistently in the order
446: * "key lock then thread lock". An exception to this exists
447: * when a thread calls the destructors, however, this is done
450: * An association is created when a thread first calls
455: * thread calls the key destructor function on thread exit, or
459: * thread
460: * reference to the thread that owns the
462: * thread struct itself. Since the association is
463: * destroyed before the thread exits, this can never
464: * point to a different logical thread to the one that
465: * created the assoc, i.e. after thread struct reuse.
492: * 1) As soon as either the key or the thread is no longer
574: /* Thread Reuse stack bottom marker. Must not be NULL or any valid pointer to memory. */
578: extern ptw32_thread_t * ptw32_threadReuseTop;
579: extern ptw32_thread_t * ptw32_threadReuseBottom;
593: extern ptw32_mcs_lock_t ptw32_thread_reuse_lock;
626: void ptw32_robust_mutex_remove(pthread_mutex_t* mutex, ptw32_thread_t* otp);
644: void ptw32_threadReusePush (pthread_t thread);
648: int ptw32_setthreadpriority (pthread_t thread, int policy, int priority);
659: void ptw32_callUserDestroyRoutines (pthread_t thread);
661: int ptw32_tkAssocCreate (ptw32_thread_t * thread, pthread_key_t key);
6: * Keeps all the internals out of pthread.h
10: * Pthreads-win32 - POSIX Threads Library for Win32
224: pthread_mutex_t lock;
248: threads. */
267: pthread_mutex_t mx;
308: pthread_mutex_t mutex; /* mutex if single cpu. */
354: pthread_t tid;
362: long nWaitersBlocked; /* Number of threads blocked */
363: long nWaitersGone; /* Number of threads timed out */
364: long nWaitersToUnblock; /* Number of threads to unblock */
365: sem_t semBlockQueue; /* Queue up threads waiting for the */
370: pthread_mutex_t mtxUnblockLock; /* Mutex that guards access to */
373: pthread_cond_t next; /* Doubly linked list */
374: pthread_cond_t prev;
387: pthread_mutex_t mtxExclusiveAccess;
388: pthread_mutex_t mtxSharedAccessCompleted;
389: pthread_cond_t cndSharedAccessCompleted;
415: * (head of chain is key->threads)
451: * pthread_setspecific() on a key that has a specified
471: * The pthread_t->keys attribute is the head of a
474: * between a pthread_t and all pthread_key_t on which
475: * it called pthread_setspecific.
480: * nextThread
481: * The pthread_key_t->threads attribute is the head of
484: * relationship between a pthread_key_t and all the
485: * PThreads that have called pthread_setspecific for
486: * this pthread_key_t.
488: * prevThread
497: * pthread_setspecific if the user provided a
503: pthread_key_t key;
504: ThreadKeyAssoc *nextKey;
506: ThreadKeyAssoc *prevKey;
571: /* Declared in pthread_cancel.c */
580: extern pthread_key_t ptw32_selfThreadKey;
581: extern pthread_key_t ptw32_cleanupKey;
582: extern pthread_cond_t ptw32_cond_list_head;
583: extern pthread_cond_t ptw32_cond_list_tail;
587: extern unsigned __int64 ptw32_threadSeqNumber;
601: extern int pthread_count;
617: int ptw32_is_attr (const pthread_attr_t * attr);
619: int ptw32_cond_check_need_init (pthread_cond_t * cond);
620: int ptw32_mutex_check_need_init (pthread_mutex_t * mutex);
621: int ptw32_rwlock_check_need_init (pthread_rwlock_t * rwlock);
622: int ptw32_spinlock_check_need_init (pthread_spinlock_t * lock);
624: int ptw32_robust_mutex_inherit(pthread_mutex_t * mutex);
625: void ptw32_robust_mutex_add(pthread_mutex_t* mutex, pthread_t self);
630: HANDLE threadH, DWORD callback_arg);
636: void ptw32_threadDestroy (pthread_t tid);
640: pthread_t ptw32_new (void);
642: pthread_t ptw32_threadReusePop (void);
657: ptw32_threadStart (void *vthreadParms);
663: void ptw32_tkAssocDestroy (ThreadKeyAssoc * assoc);
714: _CRTIMP unsigned long __cdecl _beginthread (void (__cdecl ) (void ),
716: _CRTIMP void __cdecl _endthread (void);
937: #if defined(NEED_CREATETHREAD)
940: * Macro uses args so we can cast start_proc to LPTHREAD_START_ROUTINE
950: CreateThread(security, \
952: (LPTHREAD_START_ROUTINE) start_proc, \
959: #endif /* NEED_CREATETHREAD */
12: * Copyright(C) 1999,2005 Pthreads-win32 contributors
20: * http://sources.redhat.com/pthreads-win32/contributors.html
131: * state is greater or equal "PThreadStateRunning".
161: volatile PThreadState state;
483: * nextThreads link. This chain provides the 1 to many
717: _CRTIMP unsigned long __cdecl _beginthreadex (void *, unsigned,
720: _CRTIMP void __cdecl _endthreadex (unsigned);
944: #define _beginthreadex(security, \

github.com/google/grumpy:third_party/stdlib/threading.py: [ master, ]
631: class Thread(_Verbose):
35: _start_new_thread = thread.start_new_thread
1148: current_thread = currentThread
38: ThreadError = thread.error
1071: class _MainThread(Thread):
1096: def _pickSomeNonDaemonThread():
1111: class _DummyThread(Thread):
1135: def currentThread():
1365: class ProducerThread(Thread):
1381: class ConsumerThread(Thread):
1: """Thread module emulating a subset of Java's threading model."""
6: import thread
31: 'current_thread', 'enumerate', 'Event',
32: 'Lock', 'RLock', 'Semaphore', 'BoundedSemaphore', 'Thread',
36: _allocate_lock = thread.allocate_lock
37: _get_ident = thread.get_ident
39: del thread
67: # Issue #4188: calling current_thread() can incur an infinite
73: name = "<OS thread %d>" % ident
93: The func will be passed to sys.setprofile() for each thread, before its
103: The func will be passed to sys.settrace() for each thread, before its run()
117: A reentrant lock must be released by the thread that acquired it. Once a
118: thread has acquired a reentrant lock, the same thread may acquire it again
119: without blocking; the thread must release it once for each time it has
126: """A reentrant lock must be released by the thread that acquired it. Once a
127: thread has acquired a reentrant lock, the same thread may acquire it
128: again without blocking; the thread must release it once for each time it
150: When invoked without arguments: if this thread already owns the lock,
152: if another thread owns the lock, block until the lock is unlocked. Once
153: the lock is unlocked (not owned by any thread), then grab ownership, set
154: the recursion level to one, and return. If more than one thread is
191: by any thread), and if any other threads are blocked waiting for the
194: locked and owned by the calling thread.
196: Only call this method when the calling thread owns the lock. A
246: notified by another thread.
257: notified by another thread.
301: # Return True if lock is owned by current_thread.
312: If the calling thread has not acquired the lock when this method is
317: variable in another thread, or until the optional timeout occurs. Once
376: If the calling thread has not acquired the lock when this method is
403: If the calling thread has not acquired the lock when this method
445: on entry, block, waiting until some other thread has called release() to
482: When the counter is zero on entry and another thread is waiting for it
483: to become larger than zero again, wake up that thread.
528: When the counter is zero on entry and another thread is waiting for it
529: to become larger than zero again, wake up that thread.
567: # private! called by Thread._reset_internal_locks by _after_fork()
601: block until another thread calls set() to set the flag to true, or until
617: # Helper to generate new thread names
619: _counter() # Consume 0 so first non-main thread has id 1.
620: def _newname(template="Thread-%d"):
623: # Active thread administration
625: _active = {} # maps thread id to Thread object
632: """A class that represents a thread of control.
649: name is the thread name. By default, a unique name is constructed of
650: the form "Thread-N" where N is a small decimal number.
658: the base class constructor (Thread.__init__()) before doing anything
659: else to the thread.
694: return current_thread().daemon
697: assert self.__initialized, "Thread.__init__() was not called"
710: """Start the thread's activity.
712: It must be called at most once per thread object. It arranges for the
713: object's run() method to be invoked in a separate thread of control.
716: same thread object.
720: raise RuntimeError("thread.__init__() not called")
724: self._note("%s.start(): starting thread", self)
728: _start_new_thread(self.__bootstrap, ())
736: """Method representing the thread's activity.
748: # Avoid a refcycle if the thread is running a function with
749: # an argument that has a member that points to the thread.
755: # happen when a daemon thread wakes up at an unfortunate
783: self._note("%s.__bootstrap(): thread started", self)
805: print>>_sys.stderr, ("Exception in thread %s:\n%s" %
814: "Exception in thread " + self.name +
860: "Remove current thread from the dict of currently running threads."
862: # Notes about running with dummy_thread:
864: # Must take care to not raise an exception if dummy_thread is being
866: # dummy_threading). dummy_thread.get_ident() always returns -1 since
867: # there is only one thread if dummy_thread is being used. Thus
868: # len(_active) is always <= 1 here, and any Thread instance created
869: # overwrites the (if any) thread currently registered in _active.
872: # gets overwritten the instant an instance of Thread is created; both
873: # threads return -1 from dummy_thread.get_ident() and thus have the
876: # it gets a KeyError if another Thread instance was created.
888: # could try to acquire the lock again in the same thread, (in
889: # current_thread()), and would block.
895: """Wait until the thread terminates.
897: This blocks the calling thread until the thread whose join() method is
905: thread is still alive, the join() call timed out.
908: block until the thread terminates.
910: A thread can be join()ed many times.
913: thread as that would cause a deadlock. It is also an error to join() a
914: thread before it has been started and attempts to do so raises the same
919: raise RuntimeError("Thread.__init__() not called")
921: raise RuntimeError("cannot join thread before it is started")
922: if self is current_thread():
923: raise RuntimeError("cannot join current thread")
927: self._note("%s.join(): waiting until thread stops", self)
934: self._note("%s.join(): thread stopped", self)
946: self._note("%s.join(): thread stopped", self)
957: assert self.__initialized, "Thread.__init__() not called"
961: assert self.__initialized, "Thread.__init__() not called"
968: """Thread identifier of this thread or None if it has not been started.
970: This is a nonzero integer. See the thread.get_ident() function. Thread
971: identifiers may be recycled when a thread exits and another thread is
972: created. The identifier is available even after the thread has exited.
975: assert self.__initialized, "Thread.__init__() not called"
979: """Return whether the thread is alive.
986: assert self.__initialized, "Thread.__init__() not called"
992: """A boolean value indicating whether this thread is a daemon thread (True) or not (False).
995: raised. Its initial value is inherited from the creating thread; the
996: main thread is not a daemon thread and therefore all threads created in
997: the main thread default to daemon = False.
1003: assert self.__initialized, "Thread.__init__() not called"
1008: raise RuntimeError("Thread.__init__() not called")
1010: raise RuntimeError("cannot set daemon status of active thread");
1041: class _Timer(Thread):
1051: Thread.__init__(self)
1068: # Special thread class to represent the main thread
1074: Thread.__init__(self, name="MainThread")
1103: # Dummy thread class to represent threads not started here.
1105: # If they invoke anything in threading.py that calls current_thread(), they
1107: # Their purpose is to return something from current_thread().
1114: Thread.__init__(self, name=_newname("Dummy-%d"))
1116: # Thread.__block consumes an OS-level locking primitive, which
1130: assert False, "cannot join a dummy thread"
1136: """Return the current Thread object, corresponding to the caller's thread of control.
1138: If the caller's thread of control was not created through the threading
1139: module, a dummy thread object with limited functionality is returned.
1145: ##print "current_thread(): no current thread for", _get_ident()
1151: """Return the number of Thread objects currently alive.
1167: """Return a list of all Thread objects currently alive.
1169: The list includes daemonic threads, dummy thread objects created by
1170: current_thread(), and the main thread. It excludes terminated threads and
1177: from thread import stack_size
1179: # Create the main thread object,
1185: # get thread-local implementation, either from the thread
1188: # NOTE: Thread local classes follow: the Grumpy version of this file copies
1196: key = '_local__key', 'thread.local.' + str(id(self))
1204: # We need to create the thread dict in anticipation of
1208: current_thread().__dict__[key] = dict
1214: d = current_thread().__dict__.get(key)
1217: current_thread().__dict__[key] = d
1279: for thread in threads:
1281: __dict__ = thread.__dict__
1283: # Thread is dying, rest in peace.
1290: pass # didn't have anything in this thread
1300: # by another (non-forked) thread. http://bugs.python.org/issue874900
1304: # fork() only copied the current thread; clear references to others.
1306: current = current_thread()
1308: for thread in _enumerate():
1311: if hasattr(thread, '_reset_internal_locks'):
1312: thread._reset_internal_locks()
1313: if thread is current:
1314: # There is only one active thread. We reset the ident to
1317: thread.__ident = ident
1318: new_active[ident] = thread
1321: thread.__stop()
1368: Thread.__init__(self, name="Producer")
1384: Thread.__init__(self, name="Consumer")
19: # This threading model was originally inspired by Java, and inherited
29: # Rename some stuff so "from threading import *" is safe
30: __all__ = ['activeCount', 'active_count', 'Condition', 'currentThread',
45: module='threading', message='sys.exc_clear')
68: # recursion if it has to create a DummyThread on the fly.
91: """Set a profile function for all threads started from the threading module.
101: """Set a trace function for all threads started from the threading module.
245: A condition variable allows one or more threads to wait until they are
256: """Condition variables allow one or more threads to wait until they are
374: """Wake up one or more threads waiting on this condition, if any.
379: This method wakes up at most n of the threads waiting for the condition
380: variable; it is a no-op if no threads are waiting.
401: """Wake up all threads waiting on this condition.
449: which blocked threads are awakened should not be relied on. There is no
579: All threads waiting for the flag to become true are awakened. Threads
590: Subsequently, threads calling wait() will block until set() is called to
629: # Main class for threads
643: group should be None; reserved for future extension when a ThreadGroup
683: if hasattr(self, '__block'): # DummyThread deletes self.__block
693: # Overridden in _MainThread and _DummyThread
722: raise RuntimeError("threads can only be started once")
763: # reported. Also, we only suppress them for daemonic threads;
835: # test_threading.test_no_refcycle_through_target when
871: # An instance of _MainThread is always created by 'threading'. This
874: # same key in the dict. So when the _MainThread instance created by
875: # 'threading' tries to clean itself up when atexit calls this method
879: # _active if dummy_threading is being used is a red herring. But
880: # since it isn't if dummy_threading is not being used then don't
891: if 'dummy_threading' not in _sys.modules:
953: It has no semantics. Multiple threads may be given the same name. The
983: returns a list of all alive threads.
999: The entire Python program exits when no alive non-daemon threads are
1085: t = _pickSomeNonDaemonThread()
1088: self._note("%s: waiting for other threads", self)
1091: t = _pickSomeNonDaemonThread()
1108: # They are marked as daemon threads so we won't wait for them
1117: # can never be used by a _DummyThread. Since a _DummyThread
1146: return _DummyThread()
1171: threads that have not yet been started.
1181: # (Py_Main) as threading._shutdown.
1183: _shutdown = _MainThread()._exitfunc
1189: # these from _threading_local.py to avoid circular dependency issues.
1272: threads = _enumerate()
1274: # If enumerating the current threads fails, as it seems to do
1292: # END _threading_local.py copy
1296: # is called from PyOS_AfterFork. Here we cleanup threading module state
1401: t = ProducerThread(Q, NI)
1404: C = ConsumerThread(Q, NI*NP)
850: # DummyThreads delete self.__block, but they have no waiters to
1295: # This function is called by Python/ceval.c:PyEval_ReInitThreads which

github.com/html5rocks/slides.html5rocks.com:src/canvasphoto/utilities.js: [ master, ]
333: ...(751 bytes skipped)....subscribe(onTween);this._onComplete.subscribe(onComplete);}};YAHOO.util.AnimMgr=new function(){var thread=null;var queue=[];var tweenCount=0;this.fps=1000;this.delay=1;this.registerElement=function(tween){...(197 bytes skipped)...
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86: return false;};return Y.Dom.batch(needle,f,Y.Dom,true);},inDocument:function(el){var f=function(el){if(isSafari){while(el=el.parentNode){if(...(44 bytes skipped)...
335: return true;};this.start=function(){if(thread===null){thread=setInterval(this.run,this.delay);}};this.stop=function(tween){if(!tween){clearInterval(thread);for(var i=0,len=queue.length;i<len;++i){if(queue[0].isAnimated()){this.unRegister(queue[0],0);}}
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android.googlesource.com/trusty/lk/common:include/kernel/thread.h: [ master, ]
87: typedef struct thread {
45: #define THREAD_STATS 1
46: #define THREAD_STACK_HIGHWATER 1
47: #define THREAD_STACK_BOUNDS_CHECK 1
49: #define THREAD_STACK_PADDING_SIZE 256
53: enum thread_state {
54: THREAD_SUSPENDED = 0,
55: THREAD_READY,
56: THREAD_RUNNING,
57: THREAD_BLOCKED,
58: THREAD_SLEEPING,
59: THREAD_DEATH,
62: typedef int (*thread_start_routine)(void *arg);
65: enum thread_tls_list {
78: #define THREAD_FLAG_DETACHED (1U<<0)
79: #define THREAD_FLAG_FREE_STACK (1U<<1)
80: #define THREAD_FLAG_FREE_STRUCT (1U<<2)
81: #define THREAD_FLAG_REAL_TIME (1U<<3)
82: #define THREAD_FLAG_IDLE (1U<<4)
83: #define THREAD_FLAG_DEBUG_STACK_BOUNDS_CHECK (1U<<5)
85: #define THREAD_MAGIC (0x74687264) // 'thrd'
89: struct list_node thread_list_node;
128: } thread_t;
131: #define thread_curr_cpu(t) ((t)->curr_cpu)
132: #define thread_pinned_cpu(t) ((t)->pinned_cpu)
133: #define thread_set_curr_cpu(t,c) ((t)->curr_cpu = (c))
134: #define thread_set_pinned_cpu(t, c) ((t)->pinned_cpu = (c))
136: #define thread_curr_cpu(t) (0)
137: #define thread_pinned_cpu(t) (-1)
138: #define thread_set_curr_cpu(t,c) do {} while(0)
139: #define thread_set_pinned_cpu(t, c) do {} while(0)
197: #define THREAD_LOCK(state) spin_lock_saved_state_t state; spin_lock_irqsave(&thread_lock, state)
198: #define THREAD_UNLOCK(state) spin_unlock_irqrestore(&thread_lock, state)
200: static inline bool thread_lock_held(void)
226: struct thread_stats {
244: #define THREAD_STATS_INC(name) do { thread_stats[arch_curr_cpu_num()].name++; } while(0)
248: #define THREAD_STATS_INC(name) do { } while (0)
24: #define __KERNEL_THREAD_H
23: #ifndef __KERNEL_THREAD_H
31: #include <arch/thread.h>
48: #ifndef THREAD_STACK_PADDING_SIZE
64: /* thread local storage */
94: enum thread_state state;
110: struct arch_thread arch;
117: thread_start_routine entry;
124: /* thread local storage */
142: /* thread priority */
160: void thread_init_early(void);
161: void thread_init(void);
162: void thread_become_idle(void) __NO_RETURN;
163: void thread_secondary_cpu_init_early(void);
164: void thread_secondary_cpu_entry(void) __NO_RETURN;
165: void thread_set_name(const char *name);
166: void thread_set_priority(int priority);
167: thread_t *thread_create(const char name, thread_start_routine entry, void arg, int priority, size_t stack_size);
168: thread_t *thread_create_etc(thread_t t, const char name, thread_start_routine entry, void arg, int priority, void stack, size_t stack_size);
169: status_t thread_resume(thread_t *);
170: void thread_exit(int retcode) __NO_RETURN;
171: void thread_sleep(lk_time_t delay);
172: status_t thread_detach(thread_t *t);
173: status_t thread_join(thread_t t, int retcode, lk_time_t timeout);
174: status_t thread_detach_and_resume(thread_t *t);
175: status_t thread_set_real_time(thread_t *t);
177: void dump_thread(thread_t *t);
178: void arch_dump_thread(thread_t *t);
182: void thread_yield(void); /* give up the cpu voluntarily */
183: void thread_preempt(void); /* get preempted (inserted into head of run queue) */
184: void thread_block(void); /* block on something and reschedule */
185: void thread_unblock(thread_t t, bool resched); / go back in the run queue */
188: enum handler_return thread_timer_tick(void);
190: /* the current thread */
191: thread_t *get_current_thread(void);
192: void set_current_thread(thread_t *);
195: extern spin_lock_t thread_lock;
202: return spin_lock_held(&thread_lock);
205: /* thread local storage */
208: return get_current_thread()->tls[entry];
213: uintptr_t oldval = get_current_thread()->tls[entry];
214: get_current_thread()->tls[entry] = val;
224: /* thread level statistics */
225: #if THREAD_STATS
242: extern struct thread_stats thread_stats[SMP_MAX_CPUS];
179: void dump_all_threads(void);

github.com/apache/activemq-cpp:activemq-cpp/src/main/decaf/util/concurrent/ThreadPoolExecutor.cpp: [ master, ]
153: Pointer<Thread> thread;
957: bool prestartCoreThread() {
1353: ThreadPoolExecutor::ThreadPoolExecutor(int corePoolSize, int maxPoolSize,
1382: ThreadPoolExecutor::ThreadPoolExecutor(int corePoolSize, int maxPoolSize,
1414: ThreadPoolExecutor::ThreadPoolExecutor(int corePoolSize, int maxPoolSize,
1446: ThreadPoolExecutor::ThreadPoolExecutor(int corePoolSize, int maxPoolSize,
1690: bool ThreadPoolExecutor::prestartCoreThread() {
1478: ThreadPoolExecutor::~ThreadPoolExecutor() {
315: bool coreThreadsCanTimeout;
961: int prestartAllCoreThreads() {
969: void allowCoreThreadTimeOut(bool value) {
1614: void ThreadPoolExecutor::setThreadFactory(ThreadFactory* factory) {
1627: ThreadFactory* ThreadPoolExecutor::getThreadFactory() const {
1670: void ThreadPoolExecutor::allowCoreThreadTimeout(bool value) {
1685: bool ThreadPoolExecutor::allowsCoreThreadTimeout() const {
1695: int ThreadPoolExecutor::prestartAllCoreThreads() {
61: * task deletion logic can remain unchanged and thread safe.
102: * for example when a ThreadFactory fails to create a thread when
114: * the thread transitioning to state TIDYING
168: AbstractQueuedSynchronizer(), Runnable(), thread(), firstTask(task), kernel(kernel), completedTasks(0) {
175: this->thread.reset(kernel->factory->newThread(this));
210: setExclusiveOwnerThread(Thread::currentThread());
226: * to the Timer's thread.
307: * up on a separate thread because the Worker generally adds itself to the deadWorkers
422: worker->thread->join();
593: iter->next()->thread->interrupt();
611: * currently waiting. Interrupting any arbitrary thread ensures that
624: Pointer<Thread> thread = worker->thread;
625: if (!thread->isInterrupted() && worker->tryLock()) {
627: thread->interrupt();
656: * Ensures that unless the pool is stopping, the current thread does not have
661: if (this->runStateLessThan(ctl.get(), STOP) && Thread::interrupted() &&
664: Thread::currentThread()->interrupt();
690: * usually leads processWorkerExit to replace this thread.
695: * stopping, this thread does not have its interrupt set.
698: * might throw an exception, in which case we cause thread to die
708: * thread's UncaughtExceptionHandler). Any thrown exception also
709: * conservatively causes thread to die.
712: * also throw an exception, which will also cause thread to
717: * and the thread's UncaughtExceptionHandler have as accurate
732: this->parent->beforeExecute(w->thread.get(), task);
796: * start a new thread with the given command as its first
802: * to double-check whether we should have added a thread
806: * stopped, or start a new thread if there are none.
809: * thread. If it fails, we know we are shut down or saturated
1106: * if the thread factory fails to create a thread when asked, which requires
1111: * The task the new thread should run first (or null if none).
1153: Pointer<Thread> t = w->thread;
1187: // It is possible (but unlikely) for a thread to have been added to
1189: // could result in a rare missed interrupt, because Thread::interrupt
1190: // is not guaranteed to have any effect on a non-yet-started Thread
1191: // (see Thread#interrupt).
1203: * thread from worker set, and possibly terminates the pool or replaces the
1329: * abrupt termination of a thread (see processWorkerExit). Other
1710: void ThreadPoolExecutor::beforeExecute(Thread* thread DECAF_UNUSED, Runnable* task DECAF_UNUSED) {
18: #include "ThreadPoolExecutor.h"
89: * workerCount, indicating the effective number of threads
93: * (2^29)-1 (about 500 million) threads rather than (2^31)-1 (2
101: * transiently different from the actual number of live threads,
103: * asked, and when exiting threads are still performing
133: * Threads waiting in awaitTermination() will return when the
172: "ThreadPoolExecutor Worker requires non-NULL pointer to parent ExecutorKernel");
217: this->setExclusiveOwnerThread(NULL);
291: ThreadPoolExecutor* parent;
294: * List containing all worker threads in pool. Accessed only when holding mainLock.
318: * The queue used for holding tasks and handing off to worker threads.
333: * Otherwise exiting threads would concurrently interrupt those that have not
349: Pointer<ThreadFactory> factory;
354: ExecutorKernel(ThreadPoolExecutor* parent,
357: ThreadFactory* threadFactory, RejectedExecutionHandler* handler) :
381: if(workQueue == NULL \|\| threadFactory == NULL \|\| handler == NULL) {
389: this->factory.reset(threadFactory);
417: // Ensure dead Worker Threads are destroyed, the Timer might not have
586: * Force an interrupt of all threads even if they are currently active.
603: * Interrupts threads that might be waiting for tasks (as indicated by not
610: * interrupted to propagate shutdown signals in case all threads are
795: * 1. If fewer than corePoolSize threads are running, try to
799: * threads when it shouldn't, by returning false.
932: // We don't really know how many new threads are "needed".
972: "Core threads must have nonzero keep alive times");
990: "Core threads must have nonzero keep alive times");
1113: * to bypass queuing when there are fewer than corePoolSize threads
1115: * (in which case we must bypass queue). Initially idle threads are
1116: * usually created via prestartCoreThread or to replace other dying workers.
1157: // Recheck while holding lock. Back out on ThreadFactory failure or if
1201: * worker threads. Unless completedAbruptly is set, assumes that workerCount
1365: Pointer<RejectedExecutionHandler> handler(new ThreadPoolExecutor::AbortPolicy());
1366: Pointer<ThreadFactory> threadFactory(Executors::getDefaultThreadFactory());
1370: threadFactory.get(), handler.get());
1373: threadFactory.release();
1399: Pointer<ThreadFactory> threadFactory(Executors::getDefaultThreadFactory());
1403: threadFactory.get(), handler);
1405: threadFactory.release();
1417: ThreadFactory* threadFactory) :
1427: if(threadFactory == NULL) {
1428: throw NullPointerException(__FILE__, __LINE__, "The ThreadFactory pointer cannot be NULL.");
1431: Pointer<RejectedExecutionHandler> handler(new ThreadPoolExecutor::AbortPolicy());
1435: threadFactory, handler.get());
1449: ThreadFactory* threadFactory, RejectedExecutionHandler* handler) :
1463: if(threadFactory == NULL) {
1464: throw NullPointerException(__FILE__, __LINE__, "The ThreadFactory pointer cannot be NULL.");
1469: threadFactory, handler);
1488: void ThreadPoolExecutor::execute(Runnable* task) {
1495: "ThreadPoolExecutor::execute - Supplied Runnable pointer was NULL.");
1507: void ThreadPoolExecutor::execute(Runnable* task, bool takeOwnership) {
1514: "ThreadPoolExecutor::execute - Supplied Runnable pointer was NULL.");
1526: void ThreadPoolExecutor::shutdown() {
1536: ArrayList<Runnable> Thread*PoolExecutor::shutdownNow() {
1549: bool ThreadPoolExecutor::awaitTermination(long long timeout, const TimeUnit& unit) {
1559: int ThreadPoolExecutor::getPoolSize() const {
1564: int ThreadPoolExecutor::getCorePoolSize() const {
1569: void ThreadPoolExecutor::setCorePoolSize(int poolSize) {
1579: int ThreadPoolExecutor::getMaximumPoolSize() const {
1584: void ThreadPoolExecutor::setMaximumPoolSize(int maxSize) {
1594: long long ThreadPoolExecutor::getTaskCount() const {
1599: int ThreadPoolExecutor::getActiveCount() const {
1604: long long ThreadPoolExecutor::getCompletedTaskCount() const {
1609: int ThreadPoolExecutor::getLargestPoolSize() const {
1617: throw NullPointerException(__FILE__, __LINE__, "Cannot assign a NULL ThreadFactory.");
1621: Pointer<ThreadFactory> temp(factory);
1632: RejectedExecutionHandler* ThreadPoolExecutor::getRejectedExecutionHandler() const {
1637: void ThreadPoolExecutor::setRejectedExecutionHandler(RejectedExecutionHandler* handler) {
1650: BlockingQueue<Runnable> ThreadPoolExecutor::getQueue() {
1655: bool ThreadPoolExecutor::isShutdown() const {
1660: bool ThreadPoolExecutor::isTerminated() const {
1665: bool ThreadPoolExecutor::isTerminating() const {
1675: long long ThreadPoolExecutor::getKeepAliveTime(const TimeUnit& unit) const {
1680: void ThreadPoolExecutor::setKeepAliveTime(long long timeout, const TimeUnit& unit) {
1691: return this->kernel->prestartCoreThread();
1700: bool ThreadPoolExecutor::remove(decaf::lang::Runnable* task) {
1705: void ThreadPoolExecutor::purge() {
1714: void ThreadPoolExecutor::afterExecute(Runnable* task DECAF_UNUSED, decaf::lang::Throwable* error DECAF_UNUSED) ...(1 bytes skipped)...
1718: void ThreadPoolExecutor::terminated() {
1722: void ThreadPoolExecutor::onShutdown() {
366: coreThreadsCanTimeout(false),
540: * allow access from ScheduledThreadPoolExecutor.
669: * State check needed by ScheduledThreadPoolExecutor to enable running
975: if (value != this->coreThreadsCanTimeout) {
976: this->coreThreadsCanTimeout = value;
988: if (time == 0 && this->coreThreadsCanTimeout) {
1232: int min = this->coreThreadsCanTimeout ? 0 : corePoolSize;
1254: * {@code allowCoreThreadTimeOut \|\| workerCount > corePoolSize})
1277: timed = this->coreThreadsCanTimeout \|\| wc > this->corePoolSize;
1671: this->kernel->allowCoreThreadTimeOut(value);
1686: return this->kernel->coreThreadsCanTimeout;
1696: return this->kernel->prestartAllCoreThreads();

github.com/rosjava/rosjava_core:apache_xmlrpc_common/src/main/java/org/apache/xmlrpc/util/ThreadPool.java: [ kinetic, ]
50: private Thread thread;
28: public class ThreadPool {
111: private final ThreadGroup threadGroup;
123: public ThreadPool(int pMaxSize, String pName) {
113: private final List waitingThreads = new ArrayList();
114: private final List runningThreads = new ArrayList();
226: public int getMaxThreads() { return maxSize; }
231: public synchronized int getNumThreads() { return num; }
25: / Simple thread pool. A task is executed by obtaining a thread** from
29: / The thread pool contains instances of {@link Thread**Pool.Task}.
33: * @throws Throwable The task failed, and the worker thread won't be used again.
52: thread = new Thread(pGroup, pGroup.getName() + "-" + pNum){
80: thread.start();
93: synchronized (thread) {
94: thread.notify();
105: synchronized (thread) {
106: thread.notify();
121: * @param pName Thread group name.
51: Poolable(ThreadGroup pGroup, int pNum) {
120: * @param pMaxSize Maximum number of concurrent threads.
125: threadGroup = new ThreadGroup(pName);
167: * might consider to use the {@link #addTask(ThreadPool.Task)} method instead.
189: poolable = new Poolable(threadGroup, num++);
223: / Returns the maximum number of concurrent thread**s.
224: * @return Maximum number of threads.
228: / Returns the number of thread**s, which have actually been created,
229: * as opposed to the number of currently running threads.
129: runningThreads.remove(pPoolable);
130: waitingThreads.remove(pPoolable);
138: if (runningThreads.remove(pPoolable)) {
139: if (maxSize != 0 && runningThreads.size() + waitingThreads.size() >= maxSize) {
142: waitingThreads.add(pPoolable);
179: if (maxSize != 0 && runningThreads.size() >= maxSize) {
186: if (waitingThreads.size() > 0) {
187: poolable = (Poolable) waitingThreads.remove(waitingThreads.size()-1);
191: runningThreads.add(poolable);
213: while (!waitingThreads.isEmpty()) {
214: Poolable poolable = (Poolable) waitingThreads.remove(waitingThreads.size()-1);
217: while (!runningThreads.isEmpty()) {
218: Poolable poolable = (Poolable) runningThreads.remove(runningThreads.size()-1);

github.com/googleapis/elixir-google-api:clients/chat/lib/google_api/chat/v1/model/thread.ex: [ master, ]
18: defmodule GoogleApi.Chat.V1.Model.Thread do
20: A thread in Hangouts Chat.
38: defimpl Poison.Decoder, for: GoogleApi.Chat.V1.Model.Thread do
40: GoogleApi.Chat.V1.Model.Thread.decode(value, options)
44: defimpl Poison.Encoder, for: GoogleApi.Chat.V1.Model.Thread do
24: * `name` (type: `String.t`, default: `nil`) - Resource name, in the form "spaces//threads/".
26: Example: spaces/AAAAMpdlehY/threads/UMxbHmzDlr4

github.com/apache/logging-log4cxx:src/main/cpp/threadcxx.cpp: [ master, ]
92: Thread* thread;
153: Thread::Thread() : thread(NULL), alive(0), interruptedStatus(0),
158: Thread::~Thread()
68: Thread* getThread() const
291: bool Thread::isCurrentThread() const
131: ThreadLocal& getThreadLocal()
245: void Thread::currentThreadInterrupt()
19: #include <log4cxx/helpers/thread.h>
21: #include <apr_thread_proc.h>
26: #include <apr_thread_cond.h>
36: * Thread::run when they are passed to Thread::launcher.
46: * before thread is launched.
61: LaunchPackage(Thread* t, Runnable r, void* d) : thread(t), runnable(r), data(d)
65: * Gets thread parameter.
66: * @return thread.
70: return thread;
83: * @return thread.
100: * Used to maintain Thread.alive.
128: * Get a key to the thread local storage used to hold the reference to
129: * the corresponding Thread object.
139: void* LOG4CXX_THREAD_FUNC ThreadLaunch::launcher(apr_thread_t* thread, void* data)
145: (package->getRunnable())(thread, package->getData());
148: apr_thread_exit(thread, 0); // this function never returns !
165: void Thread::run(Runnable start, void* data)
175: // now we're ready to create the thread again
177: // if attempting a second run method on the same Thread object
180: if (thread != NULL)
193: stat = apr_thread_cond_create(&interruptedCondition, p.getAPRPool());
200: stat = apr_thread_mutex_create(&interruptedMutex, APR_THREAD_MUTEX_NESTED,
208: // create LaunchPackage on the thread's memory pool
210: stat = apr_thread_create(&thread, attrs,
219: // if run() has been called in a thread-safe way.
226: void Thread::join()
230: if (thread != NULL)
233: apr_status_t stat = apr_thread_join(&startStat, thread);
234: thread = NULL;
252: ((Thread*) tls)->interrupt();
258: void Thread::interrupt()
266: apr_status_t stat = apr_thread_cond_signal(interruptedCondition);
277: bool Thread::interrupted()
284: return apr_atomic_xchg32(&(((Thread*) tls)->interruptedStatus), 0) != 0;
301: bool Thread::isAlive()
306: void Thread::ending()
312: void Thread::sleep(int duration)
323: Thread* pThis = (Thread*) getThreadLocal().get();
332: apr_status_t stat = apr_thread_cond_timedwait(pThis->interruptedCondition,
24: #include <log4cxx/helpers/threadlocal.h>
31: #if APR_HAS_THREADS
133: static ThreadLocal tls;
142: ThreadLocal& tls = getThreadLocal();
143: tls.set(package->getThread());
146: package->getThread()->ending();
167: #if APR_HAS_THREADS
185: apr_threadattr_t* attrs;
186: apr_status_t stat = apr_threadattr_create(&attrs, p.getAPRPool());
190: throw ThreadException(stat);
197: throw ThreadException(stat);
205: throw ThreadException(stat);
211: ThreadLaunch::launcher, package, p.getAPRPool());
215: throw ThreadException(stat);
222: throw ThreadException(LOG4CXX_STR("APR_HAS_THREADS is not true"));
228: #if APR_HAS_THREADS
238: throw ThreadException(stat);
247: #if APR_HAS_THREADS
261: #if APR_HAS_THREADS
270: throw ThreadException(stat);
279: #if APR_HAS_THREADS
293: #if APR_HAS_THREADS
314: #if APR_HAS_THREADS
337: throw ThreadException(stat);
248: void* tls = getThreadLocal().get();
280: void* tls = getThreadLocal().get();
294: const void* tls = getThreadLocal().get();

github.com/googlegsa/sharepoint.v3:projects/ApacheHttpClient/src/java/org/apache/commons/httpclient/MultiThreadedHttpConnectionManager.java: [ master, ]
1046: public Thread thread;
93: private static ReferenceQueueThread REFERENCE_QUEUE_THREAD;
917: public synchronized void notifyWaitingThread(HostConfiguration configuration) {
928: public synchronized void notifyWaitingThread(HostConnectionPool hostPool) {
1044: private static class WaitingThread {
1061: private static class ReferenceQueueThread extends Thread {
1068: public ReferenceQueueThread() {
65: public class MultiThreadedHttpConnectionManager implements HttpConnectionManager {
256: public MultiThreadedHttpConnectionManager() {
706: private LinkedList waitingThreads = new LinkedList();
1034: public LinkedList waitingThreads = new LinkedList();
91: * The thread responsible for handling lost connections.
134: if (REFERENCE_QUEUE_THREAD != null) {
135: REFERENCE_QUEUE_THREAD.shutdown();
136: REFERENCE_QUEUE_THREAD = null;
171: // start the reference queue thread if needed
172: if (REFERENCE_QUEUE_THREAD == null) {
173: REFERENCE_QUEUE_THREAD = new ReferenceQueueThread();
174: REFERENCE_QUEUE_THREAD.start();
507: waitingThread.thread = Thread.currentThread();
531: // interrupted by an external thread. Regardless we need to
624: * If another thread is blocked in getConnection() that could use this
741: waiter.thread.interrupt();
912: * Notifies a waiting thread that a connection for the given configuration is
922: * Notifies a waiting thread that a connection for the given configuration is
923: * available. This will wake a thread waiting in this host pool or if there is not
924: * one a thread in the connection pool will be notified.
930: // find the thread we are going to notify, we want to ensure that each
931: // waiting thread is only interrupted once so we will remove it from
937: LOG.debug("Notifying thread waiting on host pool, hostConfig="
944: LOG.debug("No-one waiting on host pool, notifying next waiting thread.");
954: waitingThread.thread.interrupt();
1041: * A simple struct-like class to combine the waiting thread and the connection
1045: / The thread** that is waiting for a connection */
1048: / The connection pool the thread** is waiting for */
1051: / Flag to indicate if the thread** was interrupted by the ConnectionPool. Set
1053: * before the thread is interrupted. */
1058: * A thread for listening for HttpConnections reclaimed by the garbage
1066: * Create an instance and make this a daemon thread.
105: * MultiThreadedHttpConnectionManager. All static resources are released, all threads are
453: WaitingThread waitingThread = null;
492: // threads, so they avoid being sacrificed before necessary
504: if (waitingThread == null) {
505: waitingThread = new WaitingThread();
506: waitingThread.hostConnectionPool = hostPool;
509: waitingThread.interruptedByConnectionPool = false;
516: hostPool.waitingThreads.addLast(waitingThread);
517: connectionPool.waitingThreads.addLast(waitingThread);
520: if (!waitingThread.interruptedByConnectionPool) {
529: if (!waitingThread.interruptedByConnectionPool) {
533: hostPool.waitingThreads.remove(waitingThread);
534: connectionPool.waitingThreads.remove(waitingThread);
735: // interrupt all waiting threads
738: WaitingThread waiter = (WaitingThread) iter.next();
777: * connection counts and notifies waiting threads, if appropriate.
787: notifyWaitingThread(config);
915: * @see #notifyWaitingThread(HostConnectionPool)
918: notifyWaitingThread(getHostPool(configuration));
933: WaitingThread waitingThread = null;
940: waitingThread = (WaitingThread) hostPool.waitingThreads.removeFirst();
941: waitingThreads.remove(waitingThread);
946: waitingThread = (WaitingThread) waitingThreads.removeFirst();
947: waitingThread.hostConnectionPool.waitingThreads.remove(waitingThread);
949: LOG.debug("Notifying no-one, there are no waiting threads");
952: if (waitingThread != null) {
953: waitingThread.interruptedByConnectionPool = true;
1004: notifyWaitingThread(hostPool);
1052: * to true inside {@link ConnectionPool#notifyWaitingThread(HostConnectionPool)}
1115: LOG.debug("ReferenceQueueThread interrupted", e);
2: ...(43 bytes skipped)...ommons-convert/cvs/home/cvs/jakarta-commons//httpclient/src/java/org/apache/commons/httpclient/MultiThreadedHttpConnectionManager.java,v 1.47 2004/12/21 11:27:55 olegk Exp $
70: private static final Log LOG = LogFactory.getLog(MultiThreadedHttpConnectionManager.class);
107: * MultiThreadedHttpConnectionManager.
118: MultiThreadedHttpConnectionManager[]
119: connManagers = (MultiThreadedHttpConnectionManager[])
121: new MultiThreadedHttpConnectionManager
522: throw new IllegalThreadStateException(
523: "Interrupted while waiting in MultiThreadedHttpConnectionManager");
705: /** The list of WaitingThreads waiting for a connection */
736: iter = waitingThreads.iterator();
764: connection.getParams().setDefaults(MultiThreadedHttpConnectionManager.this.params);
765: connection.setHttpConnectionManager(MultiThreadedHttpConnectionManager.this);
935: if (hostPool.waitingThreads.size() > 0) {
942: } else if (waitingThreads.size() > 0) {
1033: /** The list of WaitingThreads for this host */
1070: setName("MultiThreadedHttpConnectionManager cleanup");

github.com/google/starlark-go:starlark/eval.go: [ master, ]
29: type Thread struct {
26: // A Thread contains the state of a Starlark thread,
27: // such as its call stack and thread-local storage.
28: // The Thread is threaded throughout the evaluator.
30: // Name is an optional name that describes the thread, for debugging.
39: Print func(thread *Thread, msg string)
47: Load func(thread *Thread, module string) (StringDict, error)
49: // locals holds arbitrary "thread-local" Go values belonging to the client.
57: // SetLocal sets the thread-local value associated with the specified key.
59: func (thread *Thread) SetLocal(key string, value interface{}) {
60: if thread.locals == nil {
61: thread.locals = make(map[string]interface{})
63: thread.locals[key] = value
66: // Local returns the thread-local value associated with the specified key.
67: func (thread *Thread) Local(key string) interface{} {
68: return thread.locals[key]
76: func (thread *Thread) CallFrame(depth int) CallFrame {
77: return thread.frameAt(depth).asCallFrame()
80: func (thread *Thread) frameAt(depth int) *frame {
81: return thread.stack[len(thread.stack)-1-depth]
84: // CallStack returns a new slice containing the thread's stack of call frames.
85: func (thread *Thread) CallStack() CallStack {
86: frames := make([]CallFrame, len(thread.stack))
87: for i, fr := range thread.stack {
94: func (thread *Thread) CallStackDepth() int { return len(thread.stack) }
189: // a copy of the thread's stack at the moment of the error.
209: func (thread *Thread) evalError(err error) *EvalError {
212: CallStack: thread.CallStack(),
265: // Thread is the state associated with the Starlark thread.
279: func ExecFile(thread *Thread, filename string, src interface{}, predeclared StringDict) (StringDict, error) {
286: g, err := mod.Init(thread, predeclared)
355: func (prog Program) Init(thread* *Thread, predeclared StringDict) (StringDict, error) {
358: _, err := Call(thread, toplevel, nil, nil)
406: func Eval(thread *Thread, filename string, src interface{}, env StringDict) (Value, error) {
415: return Call(thread, f, nil, nil)
430: func EvalExpr(thread *Thread, expr syntax.Expr, env StringDict) (Value, error) {
435: return Call(thread, fn, nil, nil)
841: needle, ok := x.(String)
845: return Bool(strings.Contains(string(y), string(needle))), nil
1007: func Call(thread *Thread, fn Value, args Tuple, kwargs []Tuple) (Value, error) {
1015: // Optimization: use slack portion of thread.stack
1017: if n := len(thread.stack); n < cap(thread.stack) {
1018: fr = thread.stack[n : n+1][0]
1023: thread.stack = append(thread.stack, fr) // push
1027: thread.beginProfSpan()
1028: result, err := c.CallInternal(thread, args, kwargs)
1029: thread.endProfSpan()
1039: err = thread.evalError(err)
1044: thread.stack = thread.stack[:len(thread.stack)-1] // pop

github.com/googlecreativelab/chrome-music-lab:harmonics & strings/js/Thread.js: [ master, ]
5: var Thread = function(xp0Pm, yp0Pm, xp1Pm, yp1Pm, indPm, indHarmonicPm, isTopPm, threadControllerPm) {
1: // class: Thread
52: // how close do we have to be to instantly grab a thread - perpendicular distance (px)
60: // total length of this thread (when unstretched)
131: Thread.prototype.init = function() {
140: Thread.prototype.redraw = function() {
185: Thread.prototype.upd = function() {
186: // is thread currently grabbed
189: // is thread currently oscillating
198: Thread.prototype.updOsc = function() {
248: Thread.prototype.updGrab = function() {
250: // is this thread being held by a fish?
291: Thread.prototype.stopNote = function() {
298: Thread.prototype.pluck = function(xp, yp, byUser, fish) {
366: Thread.prototype.grab = function(xp, yp, byUser, car) {
386: Thread.prototype.drop = function() {
416: Thread.prototype.startOsc = function() {
430: Thread.prototype.playNote = function(vol, pan) {
445: Thread.prototype.setStretch = function(r) {
452: // desc: Check when user first clicks if they clicked right on top of a thread,
455: Thread.prototype.checkInstantGrab = function() {
479: // desc: Check when user first clicks if they clicked right on top of a thread,
482: Thread.prototype.setPosition = function(x0, y0, x1, y1) {
6: this.m = threadControllerPm;
67: // my overall index number of all threads
278: this.m.dropThread(this);
474: this.m.grabThread(this, xu, yu, true, null);

github.com/apache/attic-polygene-sandbox:libraries/thread/src/main/java/org/qi4j/library/thread/PooledThreadServiceMixin.java: [ master, ]
105: private final Thread thread;
18: package org.qi4j.library.thread;
33: @Service private ThreadGroupService threadGroupService;
35: private int threadCount;
43: public Thread newThread( Runnable runnable )
78: private void createNewThread()
103: public static class RunnableThread
108: public RunnableThread( Thread thread, PooledRunnableWrapper runnable )
28: public class PooledThreadServiceMixin
37: public PooledThreadServiceMixin()
58: return rt.thread;
85: Thread t = new Thread( group, runnable, name );
95: for( RunnableThread thread : pool )
98: thread.runnable.run = false;
99: thread.thread.interrupt();
110: this.thread = thread;
29: implements ThreadService, Activatable
31: @This private Configuration<ThreadServiceConfiguration> config;
34: private LinkedList<RunnableThread> pool;
39: pool = new LinkedList<RunnableThread>();
40: threadCount = 0;
50: if( threadCount >= max )
54: createNewThread();
56: RunnableThread rt = pool.removeFirst();
62: public ThreadServiceConfiguration configuration()
70: pool = new LinkedList<RunnableThread>();
74: createNewThread();
80: ThreadServiceConfiguration configuration = config.configuration();
81: String tgName = configuration.threadGroupName().get();
82: ThreadGroup group = threadGroupService.getThreadGroup( tgName );
83: String name = configuration.threadBaseName().get() + "-" + sequence.newSequenceValue();
86: RunnableThread runnableThread = new RunnableThread( t, runnable );
87: runnable.poolInstance = runnableThread;
88: threadCount++;
89: pool.add( runnableThread );
97: threadCount = 0;
120: private RunnableThread poolInstance;
49: Integer max = config.configuration().maxThreads().get();
52: throw new MaximumThreadsException( max );
71: int prefered = config.configuration().preferedNumberOfThreads().get();

github.com/google/skylark:eval.go: [ master, ]
29: type Thread struct {
26: // A Thread contains the state of a Skylark thread,
27: // such as its call stack and thread-local storage.
28: // The Thread is threaded throughout the evaluator.
36: Print func(thread *Thread, msg string)
44: Load func(thread *Thread, module string) (StringDict, error)
46: // locals holds arbitrary "thread-local" Go values belonging to the client.
51: // SetLocal sets the thread-local value associated with the specified key.
53: func (thread *Thread) SetLocal(key string, value interface{}) {
54: if thread.locals == nil {
55: thread.locals = make(map[string]interface{})
57: thread.locals[key] = value
60: // Local returns the thread-local value associated with the specified key.
61: func (thread *Thread) Local(key string) interface{} {
62: return thread.locals[key]
67: func (thread *Thread) Caller() Frame { return thread*.frame.parent }
70: func (thread *Thread) TopFrame() Frame { return thread*.frame }
117: // The Frames of a thread are structured as a spaghetti stack, not a
217: // Thread is the state associated with the Skylark thread.
231: func ExecFile(thread *Thread, filename string, src interface{}, predeclared StringDict) (StringDict, error) {
238: g, err := mod.Init(thread, predeclared)
280: func (prog Program) Init(thread* *Thread, predeclared StringDict) (StringDict, error) {
283: _, err := Call(thread, toplevel, nil, nil)
328: func Eval(thread *Thread, filename string, src interface{}, env StringDict) (Value, error) {
341: return Call(thread, fn, nil, nil)
724: needle, ok := x.(String)
728: return Bool(strings.Contains(string(y), string(needle))), nil
850: func Call(thread *Thread, fn Value, args Tuple, kwargs []Tuple) (Value, error) {
856: thread.frame = &Frame{parent: thread.frame, callable: c}
857: result, err := c.CallInternal(thread, args, kwargs)
858: thread.frame = thread.frame.parent

github.com/apache/commons-io:src/main/java/org/apache/commons/io/ThreadMonitor.java: [ master, ]
42: private final Thread thread;
40: class ThreadMonitor implements Runnable {
94: private ThreadMonitor(final Thread thread, final long timeout) {
20: * Monitors a thread, interrupting it if it reaches the specified timeout.
23: * interrupting the thread being monitored. If the thread being monitored
25: * the <i>monitor</i> thread.
31: * Thread monitor = ThreadMonitor.start(timeoutInMillis);
46: * Start monitoring the current thread.
50: * @return The monitor thread or {@code null}
53: public static Thread start(final long timeout) {
54: return start(Thread.currentThread(), timeout);
58: * Start monitoring the specified thread.
60: * @param thread The thread The thread to monitor
63: * @return The monitor thread or {@code null}
66: public static Thread start(final Thread thread, final long timeout) {
67: Thread monitor = null;
69: final ThreadMonitor timout = new ThreadMonitor(thread, timeout);
70: monitor = new Thread(timout, ThreadMonitor.class.getSimpleName());
78: * Stop monitoring the specified thread.
80: * @param thread The monitor thread, may be {@code null}
82: public static void stop(final Thread thread) {
83: if (thread != null) {
84: thread.interrupt();
91: * @param thread The thread to monitor
95: this.thread = thread;
101: * interrupt the thread being monitored.
109: thread.interrupt();
118: * This method exists because Thread.sleep(100) can sleep for 0, 70, 100 or 200ms or anything else
119: * it deems appropriate. Read the docs on Thread.sleep for further interesting details.
128: Thread.sleep(remaining);
33: * ThreadMonitor.stop(monitor);

android.googlesource.com/platform/system/nfc:src/adaptation/NfcAdaptation.cc: [ master, ]
438: uint32_t NfcAdaptation::Thread(__attribute__((unused)) uint32_t arg) {
796: ThreadMutex::ThreadMutex() {
846: ThreadCondVar::ThreadCondVar() {
813: ThreadMutex::~ThreadMutex() { pthread_mutex_destroy(&mMutex); }
864: ThreadCondVar::~ThreadCondVar() { pthread_cond_destroy(&mCondVar); }
903: AutoThreadMutex::AutoThreadMutex(ThreadMutex& m) : mm(m) { mm.lock(); }
914: AutoThreadMutex::~AutoThreadMutex() { mm.unlock(); }
262: // Android already logs thread_id, proc_id, timestamp, so disable those.
343: GKI_create_task((TASKPTR)Thread, MMI_TASK, (int8_t*)"NFCA_THREAD", nullptr, 0,
405: Description: signal the CondVar to release the thread** that is waiting
431: Function: NfcAdaptation::Thread**()
439: const char* func = "NfcAdaptation::Thread";
57: ThreadMutex NfcAdaptation::sLock;
60: ThreadCondVar NfcAdaptation::mHalOpenCompletedEvent;
61: ThreadCondVar NfcAdaptation::mHalCloseCompletedEvent;
278: // of a byte array is ambiguous and needlessly difficult to configure.
340: (pthread_cond_t*)nullptr, nullptr);
344: (pthread_cond_t*)nullptr, nullptr);
433: Description: Creates work thread**s
443: ThreadCondVar CondVar;
446: (pthread_cond_t)CondVar, (pthread_mutex_t)CondVar);
789: Function: ThreadMutex::Thread**Mutex()
797: pthread_mutexattr_t mutexAttr;
799: pthread_mutexattr_init(&mutexAttr);
800: pthread_mutex_init(&mMutex, &mutexAttr);
801: pthread_mutexattr_destroy(&mutexAttr);
806: Function: ThreadMutex::~Thread**Mutex()
817: Function: Thread**Mutex::lock()
824: void ThreadMutex::lock() { pthread_mutex_lock(&mMutex); }
828: Function: Thread**Mutex::unblock()
835: void ThreadMutex::unlock() { pthread_mutex_unlock(&mMutex); }
839: Function: ThreadCondVar::Thread**CondVar()
847: pthread_condattr_t CondAttr;
849: pthread_condattr_init(&CondAttr);
850: pthread_cond_init(&mCondVar, &CondAttr);
852: pthread_condattr_destroy(&CondAttr);
857: Function: ThreadCondVar::~Thread**CondVar()
868: Function: Thread**CondVar::wait()
875: void ThreadCondVar::wait() {
876: pthread_cond_wait(&mCondVar, *this);
877: pthread_mutex_unlock(*this);
882: Function: Thread**CondVar::signal()
889: void ThreadCondVar::signal() {
891: pthread_cond_signal(&mCondVar);
168: AutoThreadMutex a(sLock);
342: AutoThreadMutex guard(mCondVar);
363: AutoThreadMutex a(sLock);
444: AutoThreadMutex guard(CondVar);
890: AutoThreadMutex a(*this);
896: ** Function: AutoThreadMutex::AutoThreadMutex()
907: ** Function: AutoThreadMutex::~AutoThreadMutex()

github.com/apache/xerces2-j:tests/thread/Test.java: [ trunk, ]
18: package thread;
657: class thread extends Thread {
661: thread (ThreadInfo param) {
104: class ThreadInfo
111: ThreadInfo() {
140: class ThreadParser extends HandlerBase
171: ThreadParser()
84: int numThreads;
109: int fThreadNum; // Identifying number for this thread.
126: ThreadInfo gThreadInfo[];
66: int checkSum; // The XML checksum. Set up by the main thread for
98: // struct threadInfo Holds information specific to an individual thread.
99: // One of these is set up for each thread in the test.
106: boolean fHeartBeat; // Set true by the thread each time it finishes
577: System.err.print("usage: java thread.Test [-v] [-threads nnn] [-time nnn] [-quiet] [-verbose] xmlfile...\n" +
600: // thread, before all of the worker threads are started.
649: // thread termination. Threads are stuck running here
651: // main thread of the process (which never calls this
670: System.out.println("Thread " + thInfo.fThreadNum + ": starting");
692: System.out.println("Thread " + thInfo.fThreadNum +
726: } // class thread
796: thread t = new thread(gThreadInfo[threadNum]);
803: // display "." if some thread hasn't since previous "+"
811: Thread.sleep(1000);
839: // To Do: Run the main thread at higher priority, so that the worker threads
40: * This program is a straight port of xerces/c/tests/ThreadTest.cpp
56: // and can safely be referenced by the test threads without
67: // each file before the worker threads are started.
75: // During the test, the threads will access this info without
100: // The main program monitors the threads by looking
132: // class ThreadParser Bundles together a SAX parser and the SAX handlers
137: // in different threads.
168: // ThreadParser constructor. Invoked by the threads of the test program
263: // addToCheckSum - private function, used within ThreadParser in
275: // addToCheckSum - private function, used within ThreadParser in
468: } // class ThreadParser
516: else if (argv[argnum].equals("-threads"))
583: " -threads nnn Number of threads. Default is 2. \n" +
644: // threadMain The main function for each of the swarm of test threads.
659: ThreadInfo thInfo;
667: ThreadParser thParser = null;
682: thParser = new ThreadParser();
701: System.err.println("\nThread " + thInfo.fThreadNum +
747: // While we are still single threaded, parse each of the documents
751: ThreadParser mainParser = new ThreadParser();
783: // Fire off the requested number of parallel threads
789: gThreadInfo = new ThreadInfo[gRunInfo.numThreads];
791: int threadNum;
792: for (threadNum=0; threadNum < gRunInfo.numThreads; threadNum++)
794: gThreadInfo[threadNum] = new ThreadInfo();
795: gThreadInfo[threadNum].fThreadNum = threadNum;
801: // Loop, watching the heartbeat of the worker threads.
802: // Each second, display "+" when all threads have completed a parse
819: for (threadNum=0; threadNum < gRunInfo.numThreads; threadNum++)
821: if (gThreadInfo[threadNum].fHeartBeat == false)
830: for (threadNum=0; threadNum < gRunInfo.numThreads; threadNum++)
831: gThreadInfo[threadNum].fHeartBeat = false;
838: // Tally up the total number of parses completed by each of the threads.
843: for (threadNum=0; threadNum < gRunInfo.numThreads; threadNum++)
845: totalParsesCompleted += gThreadInfo[threadNum].fParses;
853: // The threads are still running; we just return
114: fThreadNum = -1;
487: gRunInfo.numThreads = 2;
522: gRunInfo.numThreads = Integer.parseInt(argv[argnum]);
527: if (gRunInfo.numThreads < 0)
786: if (gRunInfo.numThreads == 0)

github.com/kubernetes/minikube:site/themes/docsy/userguide/package-lock.json: [ master, ]
1098: "needle": "^2.2.1",
1079: "needle": {

github.com/kubernetes/minikube:site/package-lock.json: [ master, ]
1098: "needle": "^2.2.1",
1079: "needle": {

github.com/tensorflow/playground:package-lock.json: [ master, ]
1628: "needle": "^2.2.1",
1609: "needle": {

github.com/google/j2objc:jre_emul/android/platform/libcore/ojluni/src/main/java/java/util/concurrent/CompletableFuture.java: [ master, ]
1695: volatile Thread thread;
406: static final class ThreadPerTaskExecutor implements Executor {
2660: public Thread newThread(Runnable r) {
2659: static final class DaemonThreadFactory implements ThreadFactory {
62: * <em>non-async</em> methods may be performed by the thread that
69: * which case, a new Thread is created to run each task).
76: * class maintains at most one daemon thread for triggering and
174: * invocation if already claimed by another thread.
407: public void execute(Runnable r) { new Thread(r).start(); }
530: * thread claims ownership. If async, starts as task -- a
1684: * Completion for recording and releasing a waiting thread. This
1698: this.thread = Thread.currentThread();
1704: Thread w; // no need to atomically claim
1705: if ((w = thread) != null) {
1706: thread = null;
1712: if (Thread.interrupted())
1718: thread == null);
1729: final boolean isLive() { return thread != null; }
1761: q.thread = null;
1766: Thread.currentThread().interrupt();
1779: if (Thread.interrupted())
1805: q.thread = null;
1918: * @throws InterruptedException if the current thread was interrupted
1935: * @throws InterruptedException if the current thread was interrupted
2421: * parallel thread, or else an Executor using one thread per async
2423: * an Executor that provides at least one independent thread.
2661: Thread t = new Thread(r);
51: * <p>When two or more threads attempt to
195: * linked). Multiple threads can call postComplete, which
203: * that wake up waiting threads. The mechanics are similar to
213: * threads nulling out fields. We also try to unlink fired
216: * volatile because they are only visible to other threads upon
403: ForkJoinPool.commonPool() : new ThreadPerTaskExecutor();
1743: if (ThreadLocalRandom.nextSecondarySeed() >= 0)
2668: static final ScheduledThreadPoolExecutor delayer;
2670: (delayer = new ScheduledThreadPoolExecutor(
2671: 1, new DaemonThreadFactory())).

github.com/google/guava:guava/src/com/google/common/util/concurrent/AbstractFuture.java: [ master, ]
180: volatile @Nullable Thread thread;
1151: abstract void putThread(Waiter waiter, Thread newValue);
1221: void putThread(Waiter waiter, Thread newValue) {
1271: void putThread(Waiter waiter, Thread newValue) {
1304: void putThread(Waiter waiter, Thread newValue) {
1177: static final long WAITER_THREAD_OFFSET;
1251: final AtomicReferenceFieldUpdater<Waiter, Thread> waiterThreadUpdater;
146: newUpdater(Waiter.class, Thread.class, "thread"),
191: ATOMIC_HELPER.putThread(this, Thread.currentThread());
202: // unpark even though the thread has already removed itself from the list. But even if we did
204: Thread w = thread;
206: thread = null;
218: * <li>This is only called when a waiting thread times out or is interrupted. Both of which
224: node.thread = null; // mark as 'deleted'
235: if (curr.thread != null) { // we aren't unlinking this node, update pred.
239: if (pred.thread == null) { // We raced with another node that unlinked pred. Restart.
373: // have observed 12 micros on 64 bit linux systems to wake up a parked thread). So if the
390: * current thread is interrupted during the call, even if the value is already available.
402: if (Thread.interrupted()) {
422: if (Thread.interrupted()) {
437: // Remove the waiter, one way or another we are done parking this thread.
457: if (Thread.interrupted()) {
501: * current thread is interrupted during the call, even if the value is already available.
508: if (Thread.interrupted()) {
525: if (Thread.interrupted()) {
917: Thread.currentThread().interrupt();
1123: // detect arbitrary cycles using a thread local or possibly by catching StackOverflowExceptions
1150: / Non volatile write of the thread to the {@link Waiter#thread*} field. /
1211: WAITER_THREAD_OFFSET = unsafe.objectFieldOffset(Waiter.class.getDeclaredField("thread"));
1222: UNSAFE.putObject(waiter, WAITER_THREAD_OFFSET, newValue);
1258: AtomicReferenceFieldUpdater<Waiter, Thread> waiterThreadUpdater,
1305: waiter.thread = newValue;
356: / All waiting thread*s. /
922: / Unblocks all thread*s and runs all listeners. /
1022: / Releases all thread*s in the {@link #waiters} list, and clears the list. /
1263: this.waiterThreadUpdater = waiterThreadUpdater;
1272: waiterThreadUpdater.lazySet(waiter, newValue);

github.com/google/guava:android/guava/src/com/google/common/util/concurrent/AbstractFuture.java: [ master, ]
180: @NullableDecl volatile Thread thread;
1152: abstract void putThread(Waiter waiter, Thread newValue);
1222: void putThread(Waiter waiter, Thread newValue) {
1272: void putThread(Waiter waiter, Thread newValue) {
1305: void putThread(Waiter waiter, Thread newValue) {
1178: static final long WAITER_THREAD_OFFSET;
1252: final AtomicReferenceFieldUpdater<Waiter, Thread> waiterThreadUpdater;
146: newUpdater(Waiter.class, Thread.class, "thread"),
191: ATOMIC_HELPER.putThread(this, Thread.currentThread());
202: // unpark even though the thread has already removed itself from the list. But even if we did
204: Thread w = thread;
206: thread = null;
218: * <li>This is only called when a waiting thread times out or is interrupted. Both of which
224: node.thread = null; // mark as 'deleted'
235: if (curr.thread != null) { // we aren't unlinking this node, update pred.
239: if (pred.thread == null) { // We raced with another node that unlinked pred. Restart.
373: // have observed 12 micros on 64 bit linux systems to wake up a parked thread). So if the
390: * current thread is interrupted during the call, even if the value is already available.
402: if (Thread.interrupted()) {
422: if (Thread.interrupted()) {
437: // Remove the waiter, one way or another we are done parking this thread.
457: if (Thread.interrupted()) {
501: * current thread is interrupted during the call, even if the value is already available.
508: if (Thread.interrupted()) {
525: if (Thread.interrupted()) {
917: Thread.currentThread().interrupt();
1124: // detect arbitrary cycles using a thread local or possibly by catching StackOverflowExceptions
1151: / Non volatile write of the thread to the {@link Waiter#thread*} field. /
1212: WAITER_THREAD_OFFSET = unsafe.objectFieldOffset(Waiter.class.getDeclaredField("thread"));
1223: UNSAFE.putObject(waiter, WAITER_THREAD_OFFSET, newValue);
1259: AtomicReferenceFieldUpdater<Waiter, Thread> waiterThreadUpdater,
1306: waiter.thread = newValue;
356: / All waiting thread*s. /
922: / Unblocks all thread*s and runs all listeners. /
1022: / Releases all thread*s in the {@link #waiters} list, and clears the list. /
1264: this.waiterThreadUpdater = waiterThreadUpdater;
1273: waiterThreadUpdater.lazySet(waiter, newValue);

github.com/google/binnavi:debug/client/windynamorio/drdebug.proto: [ master, ]
347: optional uint64 thread = 5; // required
54: SUSPEND_THREAD = 9;
55: RESUME_THREAD = 10;
75: repeated uint64 thread_id = 2;
185: UNKNOWN_THREAD = 12;
232: repeated uint64 thread_id = 1;
306: THREAD_CREATED = 2;
307: THREAD_EXITED = 3;
318: optional ThreadCreatedInfo thread_created_info = 3;
319: optional ThreadExitedInfo thread_exited_info = 4;
330: optional uint64 thread_id = 3; // required
334: optional uint64 thread_id = 1; // required
338: optional uint64 thread_id = 1; // required
357: optional uint64 thread_id = 3; // required
365: optional uint64 thread_id = 1; // required
333: message ThreadCreatedInfo {
337: message ThreadExitedInfo {
84: optional SuspendThreadArgs suspend_thread_args = 9;
85: optional ResumeThreadArgs resume_thread_args = 10;
206: optional SuspendThreadResult suspend_thread_result = 9;
207: optional ResumeThreadResult resume_thread_result = 10;
53: LIST_THREADS = 8;
83: optional ListThreadsArgs list_threads_args = 8;
205: optional ListThreadsResult list_threads_result = 8;
118: message ListThreadsArgs {
121: message SuspendThreadArgs {
124: message ResumeThreadArgs {
231: message ListThreadsResult {
235: message SuspendThreadResult {
238: message ResumeThreadResult {
52: // thread control
74: // not all commands could be executed thread-locally (like write memory)
186: // Someone tried to resume already running thread.
72: // execute the command only on those threads

github.com/chromium/chromium:sandbox/win/src/nt_internals.h: [ master, ]
814: HANDLE thread;
42: #define CURRENT_THREAD ((HANDLE)-2)
270: PVOID UniqueThread;
286: ThreadBasicInformation,
287: ThreadTimes,
288: ThreadPriority,
289: ThreadBasePriority,
290: ThreadAffinityMask,
291: ThreadImpersonationToken,
292: ThreadDescriptorTableEntry,
293: ThreadEnableAlignmentFaultFixup,
294: ThreadEventPair,
295: ThreadQuerySetWin32StartAddress,
296: ThreadZeroTlsCell,
297: ThreadPerformanceCount,
298: ThreadAmILastThread,
299: ThreadIdealProcessor,
300: ThreadPriorityBoost,
301: ThreadSetTlsArrayAddress,
302: ThreadIsIoPending,
303: ThreadHideFromDebugger
285: typedef enum _NT_THREAD_INFORMATION_CLASS {
304: } NT_THREAD_INFORMATION_CLASS,
305: *PNT_THREAD_INFORMATION_CLASS;
273: typedef NTSTATUS(WINAPI* NtOpenThreadFunction)(OUT PHANDLE ThreadHandle,
307: typedef NTSTATUS(WINAPI* NtSetInformationThreadFunction)(
377: typedef NTSTATUS(WINAPI* NtOpenThreadTokenFunction)(IN HANDLE ThreadHandle,
383: typedef NTSTATUS(WINAPI* NtOpenThreadTokenExFunction)(IN HANDLE ThreadHandle,
408: typedef NTSTATUS(WINAPI* RtlCreateUserThreadFunction)(
266: // Process and Thread
309: IN NT_THREAD_INFORMATION_CLASS ThreadInformationClass,
417: OUT PHANDLE Thread,
308: IN HANDLE ThreadHandle,
310: IN PVOID ThreadInformation,
311: IN ULONG ThreadInformationLength);
410: IN PSECURITY_DESCRIPTOR ThreadSecurityDescriptor,
415: IN LPTHREAD_START_ROUTINE StartAddress,

github.com/google/binnavi:debug/client/defs.hpp: [ master, ]
232: struct Thread {
247: Thread(unsigned int tid, ThreadState state)
136: enum ThreadState {
264: typedef std::function<bool(const Thread&)> ThreadComparator;
586: std::vector<Thread> threads;
589: void addThread(const Thread& thread) {
158: dbgevt_thread_created,
161: dbgevt_thread_closed,
266: static ThreadComparator MakeThreadIdComparator(int tid) {
593: std::vector<Thread> getThreads() const {
135: // Identifies the state of a thread
137: // Thread is running
140: // Thread is suspended
157: // A new thread was created in the target process
160: // An existing thread was closed in the target process
230: * Describes a thread of the target process
233: // The thread ID of the thread
236: // The state of the thread
242: * Creates a new Thread object
244: * @param tid The thread ID of the thread
245: * @param state The state of the thread
252: bool operator==(const Thread& rhs) const {
256: bool operator<(const Thread& rhs) const {
261: * Returns a function which matches the thread with a given id
267: return [tid](const Thread& t)->bool {return t.tid == tid; };
414: // Thread ID of the thread where the exception happened
590: threads.push_back(thread);
717: std::vector<Thread> threads = registers.getThreads();
719: for (std::vector<Thread>::iterator Iter = threads.begin();
721: Thread t = *Iter;
237: ThreadState state;
594: return threads;
720: Iter != threads.end(); ++Iter) {

github.com/chromium/chromium:third_party/abseil-cpp/absl/synchronization/mutex.cc: [ master, ]
482: PerThreadSynch const thread; // thread* that is waiting
520: static PerThreadSynch *Synch_GetPerThread() {
508: static PerThreadSynch *const kPerThreadSynchNull =
525: static PerThreadSynch Synch_GetPerThreadAnnotated(Mutex mu) {
759: static inline PerThreadSynch *GetPerThreadSynch(intptr_t v) {
39: #include <thread> // NOLINT(build/c++11)
51: #include "absl/base/internal/thread_identity.h"
56: #include "absl/synchronization/internal/per_thread_sem.h"
70: ABSL_ATTRIBUTE_WEAK void AbslInternalMutexYield() { std::this_thread::yield(); }
77: #if defined(THREAD_SANITIZER)
151: // any thread to make progress gets it without undue delay.
447: // The SynchWaitParams struct encapsulates the way in which a thread is waiting:
450: // type of lock). It also points to the PerThreadSynch struct of its thread.
454: // PerThreadSynch because a thread can be waiting on multiple Mutexes if,
460: // the thread is on a Mutex's waiter queue.
464: PerThreadSynch *thread_arg,
470: thread(thread_arg),
474: const Mutex::MuHow how; // How this thread needs to wait.
475: const Condition cond; // The condition that this thread* is waiting for.
484: // If not null, thread should be enqueued on the CondVar whose state
488: int64_t contention_start_cycles; // Time (in cycles) when this thread started
500: // If a thread overfills the array during deadlock detection, we
503: // detecting when a thread releases a lock it does not hold.
519: // Return the PerThreadSynch-struct for this thread.
522: return &identity->per_thread_synch;
549: PerThreadSem::Post(w->thread_identity());
576: // Fix the per-thread state only if it exists.
579: identity->per_thread_synch.suppress_fatal_errors = true;
616: // INVARIANT1: there's a thread that was blocked on the mutex, is
621: // set when a thread is unblocked(INV1a), and threads that were
703: #ifdef THREAD_SANITIZER
763: // The next several routines maintain the per-thread next and skip fields
768: // For thread x, x->skip is one of:
771: // - a pointer to a distinct thread waiting later in the same Mutex queue
777: // first runnable thread y from the front a Mutex queue to adjust the skip
778: // field of another thread x because if x->skip==y, x->skip must (have) become
780: // thread from an arbitrary position in the queue whether runnable or not, so
789: // Returns the last thread y in a mutex waiter queue such that all threads in
792: // the range. Requires thread x is in a mutex waiter queue.
850: // Enqueue thread "waitp->thread" on a waiter queue.
856: // If waitp->cv_word == nullptr, queue the thread at either the front or
862: // whether this thread was transferred from a CondVar or is waiting for a
866: // returned. This mechanism is used by CondVar to queue a thread on the
878: PerThreadSynch s = waitp->thread*;
899: // Every so often, update our idea of the thread's priority.
988: // Dequeue the successor pw->next of thread pw from the Mutex waiter queue
1051: // Try to remove thread s from the list of waiters on this mutex.
1064: if ((w = pw->next) != s) { // search for thread,
1075: // don't search further if we found the thread, or we're about to
1076: // process the first thread again.
1079: if (w == s) { // found thread; remove it
1102: // Wait until thread "s", which must be the current thread, is removed from the
1135: // Wake thread w, and return the next thread in the list.
1186: // eventually followed by a call to LockLeave(mu, id, x) by the same thread.
1206: "thread releasing lock it does not hold: %p %s; "
1306: // Called in debug mode when a thread is about to acquire a lock in a way that
1323: // it can't always be the first lock acquired by a thread.
1327: // We prefer to keep stack traces that show a thread holding and acquiring
1333: // For each other mutex already held by this thread:
1426: ABSL_RAW_LOG(FATAL, "thread should not hold mutex %p %s",
1575: this->Block(waitp.thread);
1732: // the mutex if this thread has blocked, and therefore may be the designated
1765: #ifdef THREAD_SANITIZER
1805: // addition and this thread. So if we would enable race detection here,
1855: this->Block(waitp.thread);
1905: waitp->thread->waitp == nullptr \|\| waitp->thread->suppress_fatal_errors,
1922: this->Block(waitp->thread);
1929: // This thread tries to become the one and only waiter.
1943: waitp->thread->waitp = nullptr;
1966: this->Block(waitp->thread);
1991: this->Block(waitp->thread); // wait until removed from list or timeout
1997: waitp->thread->waitp == nullptr \|\| waitp->thread->suppress_fatal_errors,
2002: waitp->thread->waitp == nullptr \|\| waitp->thread->suppress_fatal_errors,
2011: // Unlock this mutex, which is held by the current thread.
2012: // If waitp is non-zero, it must be the wait parameters for the current thread
2037: ABSL_RAW_CHECK(waitp == nullptr \|\| waitp->thread->waitp == nullptr \|\|
2038: waitp->thread->suppress_fatal_errors,
2041: // the list of waiters. In addition, it places waitp.thread on the queue of
2222: // this thread's condition is not known false, AND
2316: // waiting thread may have been moved from the condition variable queue to the
2317: // mutex queue without a wakeup, by Trans(). In that case, when the thread is
2318: // finally woken, the woken thread will believe it has been woken from the
2327: // Used by CondVar implementation to effectively wake thread w from the
2328: // condition variable. If this mutex is free, we simply wake the thread.
2330: // enqueue thread w on this mutex.
2344: // conflicting != 0 implies that the waking thread cannot currently take
2356: // This thread tries to become the one and only waiter.
2388: ABSL_RAW_LOG(FATAL, "thread should hold write lock on Mutex %p %s",
2398: FATAL, "thread should hold at least a read lock on Mutex %p %s",
2428: // Remove thread s from the list of waiters on this condition variable.
2441: while (w->next != s && w->next != h) { // search for thread
2444: if (w->next == s) { // found thread; remove it
2463: // Queue thread waitp->thread on condition variable word cv_word using
2469: // to block this thread. That would be a problem if the thread were already on
2471: // to tell the unlock code to call CondVarEnqueue() to queue the thread on the
2476: // This thread might be transferred to the Mutex queue by Fer() when
2481: // this thread on another queue.
2494: ABSL_RAW_CHECK(waitp->thread->waitp == nullptr, "waiting when shouldn't be");
2495: waitp->thread->waitp = waitp; // prepare ourselves for waiting
2497: if (h == nullptr) { // add this thread to waiter list
2498: waitp->thread->next = waitp->thread;
2500: waitp->thread->next = h->next;
2501: h->next = waitp->thread;
2503: waitp->thread->state.store(PerThreadSynch::kQueued,
2505: cv_word->store((v & kCvEvent) \| reinterpret_cast<intptr_t>(waitp->thread),
2527: // Mutex, thus queuing this thread on the condition variable. See
2532: while (waitp.thread->state.load(std::memory_order_acquire) ==
2534: if (!Mutex::DecrementSynchSem(mutex, waitp.thread, t)) {
2535: this->Remove(waitp.thread);
2540: ABSL_RAW_CHECK(waitp.thread->waitp != nullptr, "not waiting when should be");
2541: waitp.thread->waitp = nullptr; // cleanup
2572: // Wake thread w
2578: // The waiting thread only needs to observe "w->state == kAvailable" to be
2646: do { // for every thread, wake it up
2672: #ifdef THREAD_SANITIZER
24: #include <pthread.h>
61: using absl::base_internal::ThreadIdentity;
423: // Calling the invariant as is causes problems under ThreadSanitizer.
521: ThreadIdentity *identity = GetOrCreateCurrentThreadIdentity();
529: PerThreadSynch *w = Synch_GetPerThread();
537: PerThreadSynch *s = Synch_GetPerThread();
560: assert(w == Synch_GetPerThread());
577: ThreadIdentity *identity = CurrentThreadIdentityIfPresent();
613: static const intptr_t kMuWait = 0x0004L; // threads are waiting
618: // designated waker, all threads can avoid taking the slow path in
749: // Return true iff threads x and y are waiting on the same condition for the
772: // such that all threads in [x, x->skip] have the same condition and
790: // [x, y] inclusive share the same condition. Sets skip fields of some threads
896: #ifdef ABSL_HAVE_PTHREAD_GETSCHEDPARAM
900: // pthread_getschedparam() is 5% of the block/wakeup time;
904: const int err = pthread_getschedparam(pthread_self(), &policy, &param);
906: ABSL_RAW_LOG(ERROR, "pthread_getschedparam failed: %d", err);
1069: // in the threads we skipped; none can point to s
2033: PerThreadSynch wake_list = kPerThreadSynchNull; // list of thread*s to wake
2040: // This loop finds threads wake_list to wakeup if any, and removes them from
2680: // ThreadSanitizer does not instrument this file for memory accesses.
59: using absl::base_internal::CurrentThreadIdentityIfPresent;
60: using absl::base_internal::PerThreadSynch;
62: using absl::synchronization_internal::GetOrCreateCurrentThreadIdentity;
67: using absl::synchronization_internal::PerThreadSem;
459: // PerThreadSynch struct points at the most recent SynchWaitParams struct when
509: reinterpret_cast<PerThreadSynch *>(1);
539: s->all_locks = LocksHeldAlloc(); // Freed by ReclaimThreadIdentity.
544: // Post on "w"'s associated PerThreadSem.
545: inline void Mutex::IncrementSynchSem(Mutex mu, PerThreadSynch w) {
555: // Wait on "w"'s associated PerThreadSem; returns false if timeout expired.
556: bool Mutex::DecrementSynchSem(Mutex mu, PerThreadSynch w, KernelTimeout t) {
562: bool res = PerThreadSem::Wait(t);
589: // PerThreadSem::Wait() for consistency. Unfortunately, we don't have
647: // PerThreadSynch::readers of the most recently queued waiter, again in the
655: static_assert(PerThreadSynch::kAlignment > kMuLow,
656: "PerThreadSynch::kAlignment must be greater than kMuLow");
752: static bool MuSameCondition(PerThreadSynch x, PerThreadSynch y) {
757: // Given the contents of a mutex word containing a PerThreadSynch pointer,
760: return reinterpret_cast<PerThreadSynch *>(v & kMuHigh);
817: static PerThreadSynch Skip(PerThreadSynch x) {
818: PerThreadSynch *x0 = nullptr;
819: PerThreadSynch *x1 = x;
820: PerThreadSynch *x2 = x->skip;
836: static void FixSkip(PerThreadSynch ancestor, PerThreadSynch to_be_removed) {
869: static PerThreadSynch Enqueue(PerThreadSynch head,
895: PerThreadSynch *enqueue_after = nullptr; // we'll put s after this element
921: PerThreadSynch *advance_to = head; // next value of enqueue_after
922: PerThreadSynch *cur; // successor of enqueue_after
984: s->state.store(PerThreadSynch::kQueued, std::memory_order_relaxed);
992: static PerThreadSynch Dequeue(PerThreadSynch head, PerThreadSynch *pw) {
993: PerThreadSynch *w = pw->next;
1015: static PerThreadSynch DequeueAllWakeable(PerThreadSynch head,
1016: PerThreadSynch *pw,
1017: PerThreadSynch **wake_tail) {
1018: PerThreadSynch *orig_h = head;
1019: PerThreadSynch *w = pw->next;
1053: void Mutex::TryRemove(PerThreadSynch *s) {
1060: PerThreadSynch *h = GetPerThreadSynch(v);
1062: PerThreadSynch *pw = h; // pw is w's predecessor
1063: PerThreadSynch *w;
1084: s->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
1107: ABSL_XRAY_LOG_ARGS(1) void Mutex::Block(PerThreadSynch *s) {
1108: while (s->state.load(std::memory_order_acquire) == PerThreadSynch::kQueued) {
1136: PerThreadSynch Mutex::Wakeup(PerThreadSynch w) {
1137: PerThreadSynch *next = w->next;
1139: w->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
1568: how, &cond, t, nullptr /no cvmu/, Synch_GetPerThreadAnnotated(this),
1848: how, cond, t, nullptr /no cvmu/, Synch_GetPerThreadAnnotated(this),
1930: PerThreadSynch *new_h = Enqueue(nullptr, waitp, v, flags);
1953: PerThreadSynch *h = GetPerThreadSynch(v);
1975: PerThreadSynch *h = GetPerThreadSynch(v);
1976: PerThreadSynch *new_h = Enqueue(h, waitp, v, flags);
2026: PerThreadSynch *w = nullptr;
2028: PerThreadSynch *pw = nullptr;
2030: PerThreadSynch *old_h = nullptr;
2074: PerThreadSynch *new_h = nullptr;
2106: PerThreadSynch *h = GetPerThreadSynch(v);
2112: PerThreadSynch *new_h = Enqueue(h, waitp, v, kMuIsCond);
2169: PerThreadSynch *new_h = Enqueue(h, waitp, v, kMuIsCond);
2183: PerThreadSynch *w_walk; // current waiter during list walk
2184: PerThreadSynch *pw_walk; // previous waiter during list walk
2279: ABSL_RAW_CHECK(wake_list != kPerThreadSynchNull,
2296: if (wake_list != kPerThreadSynchNull) {
2301: } while (wake_list != kPerThreadSynchNull);
2331: void Mutex::Fer(PerThreadSynch *w) {
2351: w->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
2357: PerThreadSynch *new_h = Enqueue(nullptr, w->waitp, v, kMuIsCond);
2367: PerThreadSynch *h = GetPerThreadSynch(v);
2368: PerThreadSynch *new_h = Enqueue(h, w->waitp, v, kMuIsCond);
2412: static_assert(PerThreadSynch::kAlignment > kCvLow,
2413: "PerThreadSynch::kAlignment must be greater than kCvLow");
2429: void CondVar::Remove(PerThreadSynch *s) {
2438: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2440: PerThreadSynch *w = h;
2450: s->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
2496: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2525: Synch_GetPerThreadAnnotated(mutex), &cv_);
2533: PerThreadSynch::kQueued) {
2576: void CondVar::Wakeup(PerThreadSynch *w) {
2582: w->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
2599: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2600: PerThreadSynch *w = nullptr;
2642: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2644: PerThreadSynch *w;
2645: PerThreadSynch *n = h->next;

github.com/google/nomulus:package-lock.json: [ master, ]
1276: "needle": "^2.2.1",
1257: "needle": {

github.com/firebase/firebase-ios-sdk:Firebase/Messaging/Protos/GtalkCore.pbobjc.h: [ master, ]
809: @property(nonatomic, readwrite, copy, null_resettable) NSString *thread;
811: @property(nonatomic, readwrite) BOOL hasThread;
761: GtalkMessageStanza_FieldNumber_Thread = 8,
810: / Test to see if @c thread** has been set. */

github.com/google/gapid:gapis/service/service.proto: [ master, ]
846: message Thread {
78: message Threads {
79: repeated path.Thread list = 1;
101: Thread thread = 18;
845: // Thread represents a single thread in the capture.
102: Threads threads = 19;

github.com/firebase/firebase-ios-sdk:Firestore/third_party/abseil-cpp/absl/synchronization/mutex.cc: [ master, ]
482: PerThreadSynch const thread; // thread* that is waiting
520: static PerThreadSynch *Synch_GetPerThread() {
508: static PerThreadSynch *const kPerThreadSynchNull =
525: static PerThreadSynch Synch_GetPerThreadAnnotated(Mutex mu) {
759: static inline PerThreadSynch *GetPerThreadSynch(intptr_t v) {
39: #include <thread> // NOLINT(build/c++11)
51: #include "absl/base/internal/thread_identity.h"
56: #include "absl/synchronization/internal/per_thread_sem.h"
70: ABSL_ATTRIBUTE_WEAK void AbslInternalMutexYield() { std::this_thread::yield(); }
77: #if defined(THREAD_SANITIZER)
151: // any thread to make progress gets it without undue delay.
447: // The SynchWaitParams struct encapsulates the way in which a thread is waiting:
450: // type of lock). It also points to the PerThreadSynch struct of its thread.
454: // PerThreadSynch because a thread can be waiting on multiple Mutexes if,
460: // the thread is on a Mutex's waiter queue.
464: PerThreadSynch *thread_arg,
470: thread(thread_arg),
474: const Mutex::MuHow how; // How this thread needs to wait.
475: const Condition cond; // The condition that this thread* is waiting for.
484: // If not null, thread should be enqueued on the CondVar whose state
488: int64_t contention_start_cycles; // Time (in cycles) when this thread started
500: // If a thread overfills the array during deadlock detection, we
503: // detecting when a thread releases a lock it does not hold.
519: // Return the PerThreadSynch-struct for this thread.
522: return &identity->per_thread_synch;
549: PerThreadSem::Post(w->thread_identity());
576: // Fix the per-thread state only if it exists.
579: identity->per_thread_synch.suppress_fatal_errors = true;
616: // INVARIANT1: there's a thread that was blocked on the mutex, is
621: // set when a thread is unblocked(INV1a), and threads that were
703: #ifdef THREAD_SANITIZER
763: // The next several routines maintain the per-thread next and skip fields
768: // For thread x, x->skip is one of:
771: // - a pointer to a distinct thread waiting later in the same Mutex queue
777: // first runnable thread y from the front a Mutex queue to adjust the skip
778: // field of another thread x because if x->skip==y, x->skip must (have) become
780: // thread from an arbitrary position in the queue whether runnable or not, so
789: // Returns the last thread y in a mutex waiter queue such that all threads in
792: // the range. Requires thread x is in a mutex waiter queue.
850: // Enqueue thread "waitp->thread" on a waiter queue.
856: // If waitp->cv_word == nullptr, queue the thread at either the front or
862: // whether this thread was transferred from a CondVar or is waiting for a
866: // returned. This mechanism is used by CondVar to queue a thread on the
878: PerThreadSynch s = waitp->thread*;
899: // Every so often, update our idea of the thread's priority.
984: // Dequeue the successor pw->next of thread pw from the Mutex waiter queue
1047: // Try to remove thread s from the list of waiters on this mutex.
1060: if ((w = pw->next) != s) { // search for thread,
1071: // don't search further if we found the thread, or we're about to
1072: // process the first thread again.
1075: if (w == s) { // found thread; remove it
1098: // Wait until thread "s", which must be the current thread, is removed from the
1131: // Wake thread w, and return the next thread in the list.
1182: // eventually followed by a call to LockLeave(mu, id, x) by the same thread.
1202: "thread releasing lock it does not hold: %p %s; "
1302: // Called in debug mode when a thread is about to acquire a lock in a way that
1319: // it can't always be the first lock acquired by a thread.
1323: // We prefer to keep stack traces that show a thread holding and acquiring
1329: // For each other mutex already held by this thread:
1422: ABSL_RAW_LOG(FATAL, "thread should not hold mutex %p %s",
1571: this->Block(waitp.thread);
1728: // the mutex if this thread has blocked, and therefore may be the designated
1761: #ifdef THREAD_SANITIZER
1801: // addition and this thread. So if we would enable race detection here,
1851: this->Block(waitp.thread);
1901: waitp->thread->waitp == nullptr \|\| waitp->thread->suppress_fatal_errors,
1918: this->Block(waitp->thread);
1925: // This thread tries to become the one and only waiter.
1939: waitp->thread->waitp = nullptr;
1962: this->Block(waitp->thread);
1987: this->Block(waitp->thread); // wait until removed from list or timeout
1993: waitp->thread->waitp == nullptr \|\| waitp->thread->suppress_fatal_errors,
1998: waitp->thread->waitp == nullptr \|\| waitp->thread->suppress_fatal_errors,
2007: // Unlock this mutex, which is held by the current thread.
2008: // If waitp is non-zero, it must be the wait parameters for the current thread
2033: ABSL_RAW_CHECK(waitp == nullptr \|\| waitp->thread->waitp == nullptr \|\|
2034: waitp->thread->suppress_fatal_errors,
2037: // the list of waiters. In addition, it places waitp.thread on the queue of
2218: // this thread's condition is not known false, AND
2312: // waiting thread may have been moved from the condition variable queue to the
2313: // mutex queue without a wakeup, by Trans(). In that case, when the thread is
2314: // finally woken, the woken thread will believe it has been woken from the
2323: // Used by CondVar implementation to effectively wake thread w from the
2324: // condition variable. If this mutex is free, we simply wake the thread.
2326: // enqueue thread w on this mutex.
2340: // conflicting != 0 implies that the waking thread cannot currently take
2352: // This thread tries to become the one and only waiter.
2384: ABSL_RAW_LOG(FATAL, "thread should hold write lock on Mutex %p %s",
2394: FATAL, "thread should hold at least a read lock on Mutex %p %s",
2424: // Remove thread s from the list of waiters on this condition variable.
2437: while (w->next != s && w->next != h) { // search for thread
2440: if (w->next == s) { // found thread; remove it
2459: // Queue thread waitp->thread on condition variable word cv_word using
2465: // to block this thread. That would be a problem if the thread were already on
2467: // to tell the unlock code to call CondVarEnqueue() to queue the thread on the
2472: // This thread might be transferred to the Mutex queue by Fer() when
2477: // this thread on another queue.
2490: ABSL_RAW_CHECK(waitp->thread->waitp == nullptr, "waiting when shouldn't be");
2491: waitp->thread->waitp = waitp; // prepare ourselves for waiting
2493: if (h == nullptr) { // add this thread to waiter list
2494: waitp->thread->next = waitp->thread;
2496: waitp->thread->next = h->next;
2497: h->next = waitp->thread;
2499: waitp->thread->state.store(PerThreadSynch::kQueued,
2501: cv_word->store((v & kCvEvent) \| reinterpret_cast<intptr_t>(waitp->thread),
2523: // Mutex, thus queuing this thread on the condition variable. See
2528: while (waitp.thread->state.load(std::memory_order_acquire) ==
2530: if (!Mutex::DecrementSynchSem(mutex, waitp.thread, t)) {
2531: this->Remove(waitp.thread);
2536: ABSL_RAW_CHECK(waitp.thread->waitp != nullptr, "not waiting when should be");
2537: waitp.thread->waitp = nullptr; // cleanup
2568: // Wake thread w
2574: // The waiting thread only needs to observe "w->state == kAvailable" to be
2642: do { // for every thread, wake it up
2668: #ifdef THREAD_SANITIZER
24: #include <pthread.h>
61: using absl::base_internal::ThreadIdentity;
423: // Calling the invariant as is causes problems under ThreadSanitizer.
521: ThreadIdentity *identity = GetOrCreateCurrentThreadIdentity();
529: PerThreadSynch *w = Synch_GetPerThread();
537: PerThreadSynch *s = Synch_GetPerThread();
560: assert(w == Synch_GetPerThread());
577: ThreadIdentity *identity = CurrentThreadIdentityIfPresent();
613: static const intptr_t kMuWait = 0x0004L; // threads are waiting
618: // designated waker, all threads can avoid taking the slow path in
749: // Return true iff threads x and y are waiting on the same condition for the
772: // such that all threads in [x, x->skip] have the same condition and
790: // [x, y] inclusive share the same condition. Sets skip fields of some threads
896: #ifdef ABSL_HAVE_PTHREAD_GETSCHEDPARAM
900: // pthread_getschedparam() is 5% of the block/wakeup time;
904: pthread_getschedparam(pthread_self(), &policy, &param);
1065: // in the threads we skipped; none can point to s
2029: PerThreadSynch wake_list = kPerThreadSynchNull; // list of thread*s to wake
2036: // This loop finds threads wake_list to wakeup if any, and removes them from
2676: // ThreadSanitizer does not instrument this file for memory accesses.
59: using absl::base_internal::CurrentThreadIdentityIfPresent;
60: using absl::base_internal::PerThreadSynch;
62: using absl::synchronization_internal::GetOrCreateCurrentThreadIdentity;
67: using absl::synchronization_internal::PerThreadSem;
459: // PerThreadSynch struct points at the most recent SynchWaitParams struct when
509: reinterpret_cast<PerThreadSynch *>(1);
539: s->all_locks = LocksHeldAlloc(); // Freed by ReclaimThreadIdentity.
544: // Post on "w"'s associated PerThreadSem.
545: inline void Mutex::IncrementSynchSem(Mutex mu, PerThreadSynch w) {
555: // Wait on "w"'s associated PerThreadSem; returns false if timeout expired.
556: bool Mutex::DecrementSynchSem(Mutex mu, PerThreadSynch w, KernelTimeout t) {
562: bool res = PerThreadSem::Wait(t);
589: // PerThreadSem::Wait() for consistency. Unfortunately, we don't have
647: // PerThreadSynch::readers of the most recently queued waiter, again in the
655: static_assert(PerThreadSynch::kAlignment > kMuLow,
656: "PerThreadSynch::kAlignment must be greater than kMuLow");
752: static bool MuSameCondition(PerThreadSynch x, PerThreadSynch y) {
757: // Given the contents of a mutex word containing a PerThreadSynch pointer,
760: return reinterpret_cast<PerThreadSynch *>(v & kMuHigh);
817: static PerThreadSynch Skip(PerThreadSynch x) {
818: PerThreadSynch *x0 = nullptr;
819: PerThreadSynch *x1 = x;
820: PerThreadSynch *x2 = x->skip;
836: static void FixSkip(PerThreadSynch ancestor, PerThreadSynch to_be_removed) {
869: static PerThreadSynch Enqueue(PerThreadSynch head,
895: PerThreadSynch *enqueue_after = nullptr; // we'll put s after this element
917: PerThreadSynch *advance_to = head; // next value of enqueue_after
918: PerThreadSynch *cur; // successor of enqueue_after
980: s->state.store(PerThreadSynch::kQueued, std::memory_order_relaxed);
988: static PerThreadSynch Dequeue(PerThreadSynch head, PerThreadSynch *pw) {
989: PerThreadSynch *w = pw->next;
1011: static PerThreadSynch DequeueAllWakeable(PerThreadSynch head,
1012: PerThreadSynch *pw,
1013: PerThreadSynch **wake_tail) {
1014: PerThreadSynch *orig_h = head;
1015: PerThreadSynch *w = pw->next;
1049: void Mutex::TryRemove(PerThreadSynch *s) {
1056: PerThreadSynch *h = GetPerThreadSynch(v);
1058: PerThreadSynch *pw = h; // pw is w's predecessor
1059: PerThreadSynch *w;
1080: s->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
1103: ABSL_XRAY_LOG_ARGS(1) void Mutex::Block(PerThreadSynch *s) {
1104: while (s->state.load(std::memory_order_acquire) == PerThreadSynch::kQueued) {
1132: PerThreadSynch Mutex::Wakeup(PerThreadSynch w) {
1133: PerThreadSynch *next = w->next;
1135: w->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
1564: how, &cond, t, nullptr /no cvmu/, Synch_GetPerThreadAnnotated(this),
1844: how, cond, t, nullptr /no cvmu/, Synch_GetPerThreadAnnotated(this),
1926: PerThreadSynch *new_h = Enqueue(nullptr, waitp, v, flags);
1949: PerThreadSynch *h = GetPerThreadSynch(v);
1971: PerThreadSynch *h = GetPerThreadSynch(v);
1972: PerThreadSynch *new_h = Enqueue(h, waitp, v, flags);
2022: PerThreadSynch *w = nullptr;
2024: PerThreadSynch *pw = nullptr;
2026: PerThreadSynch *old_h = nullptr;
2070: PerThreadSynch *new_h = nullptr;
2102: PerThreadSynch *h = GetPerThreadSynch(v);
2108: PerThreadSynch *new_h = Enqueue(h, waitp, v, kMuIsCond);
2165: PerThreadSynch *new_h = Enqueue(h, waitp, v, kMuIsCond);
2179: PerThreadSynch *w_walk; // current waiter during list walk
2180: PerThreadSynch *pw_walk; // previous waiter during list walk
2275: ABSL_RAW_CHECK(wake_list != kPerThreadSynchNull,
2292: if (wake_list != kPerThreadSynchNull) {
2297: } while (wake_list != kPerThreadSynchNull);
2327: void Mutex::Fer(PerThreadSynch *w) {
2347: w->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
2353: PerThreadSynch *new_h = Enqueue(nullptr, w->waitp, v, kMuIsCond);
2363: PerThreadSynch *h = GetPerThreadSynch(v);
2364: PerThreadSynch *new_h = Enqueue(h, w->waitp, v, kMuIsCond);
2408: static_assert(PerThreadSynch::kAlignment > kCvLow,
2409: "PerThreadSynch::kAlignment must be greater than kCvLow");
2425: void CondVar::Remove(PerThreadSynch *s) {
2434: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2436: PerThreadSynch *w = h;
2446: s->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
2492: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2521: Synch_GetPerThreadAnnotated(mutex), &cv_);
2529: PerThreadSynch::kQueued) {
2572: void CondVar::Wakeup(PerThreadSynch *w) {
2578: w->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
2595: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2596: PerThreadSynch *w = nullptr;
2638: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2640: PerThreadSynch *w;
2641: PerThreadSynch *n = h->next;

android.googlesource.com/platform/external/pthreads:implement.h: [ master, ]
130: DWORD thread;
444: ptw32_thread_t * thread;
131: HANDLE threadH; /* Win32 thread handle - POSIX thread is invalid if threadH == 0 */
139: pthread_mutex_t threadLock; /* Used for serialised access to public thread state */
210: pthread_t ownerThread;
271: void *threads;
275: typedef struct ThreadParms ThreadParms;
276: typedef struct ThreadKeyAssoc ThreadKeyAssoc;
278: struct ThreadParms
344: struct ThreadKeyAssoc
447: ThreadKeyAssoc *nextThread;
449: ThreadKeyAssoc *prevThread;
123: typedef struct ptw32_thread_t_ ptw32_thread_t;
125: struct ptw32_thread_t_
522: #define PTW32_THREAD_REUSE_EMPTY ((ptw32_thread_t *) 1)
162: struct pthread_attr_t_
198: struct pthread_mutex_t_
215: struct pthread_mutexattr_t_
242: struct pthread_spinlock_t_
252: struct pthread_barrier_t_
261: struct pthread_barrierattr_t_
266: struct pthread_key_t_
286: struct pthread_cond_t_
304: struct pthread_condattr_t_
311: struct pthread_rwlock_t_
322: struct pthread_rwlockattr_t_
108: PThreadStateInitial = 0, /* Thread not running */
109: PThreadStateRunning, /* Thread alive & kicking */
110: PThreadStateSuspended, /* Thread alive but suspended */
111: PThreadStateCancelPending, /* Thread alive but is */
113: PThreadStateCanceling, /* Thread alive but is */
116: PThreadStateException, /* Thread alive but exiting */
118: PThreadStateLast
120: PThreadState;
696: #define _beginthreadex(security, \
709: #define _endthreadex ExitThread
104: * This enumeration represents the state of the thread;
105: * The thread is still "alive" if the numeric value of the
132: pthread_t ptHandle; /* This thread's permanent pthread_t handle */
133: ptw32_thread_t * prevReuse; /* Links threads on reuse stack */
206: int recursive_count; /* Number of unlocks a thread needs to perform
348: * This structure creates an association between a thread and a key.
350: * destroy routine for thread specific data registered by a user upon
351: * exiting a thread.
357: * T - Thread that has called pthread_setspecific(Kn)
358: * (head of chain is thread->keys)
377: * general lock (guarding the row) and the thread's general
381: * be released - both the key must be deleted and the thread
383: * allows the resources to be freed as soon as either thread or
387: * and thread locks are always acquired in the order: key lock
388: * then thread lock. An exception to this exists when a thread
392: * An association is created when a thread first calls
397: * thread calls the key destructor function on thread exit, or
401: * thread
402: * reference to the thread that owns the
404: * thread struct itself. Since the association is
405: * destroyed before the thread exits, this can never
406: * point to a different logical thread to the one that
407: * created the assoc, i.e. after thread struct reuse.
434: * 1) As soon as either the key or the thread is no longer
521: /* Thread Reuse stack bottom marker. Must not be NULL or any valid pointer to memory. */
525: extern ptw32_thread_t * ptw32_threadReuseTop;
526: extern ptw32_thread_t * ptw32_threadReuseBottom;
540: extern CRITICAL_SECTION ptw32_thread_reuse_lock;
595: void ptw32_threadReusePush (pthread_t thread);
599: int ptw32_setthreadpriority (pthread_t thread, int policy, int priority);
610: void ptw32_callUserDestroyRoutines (pthread_t thread);
612: int ptw32_tkAssocCreate (ptw32_thread_t * thread, pthread_key_t key);
6: * Keeps all the internals out of pthread.h
10: * Pthreads-win32 - POSIX Threads Library for Win32
141: pthread_mutex_t cancelLock; /* Used for async-cancel safety */
188: pthread_mutex_t lock;
212: threads. */
248: pthread_mutex_t mutex; /* mutex if single cpu. */
270: pthread_mutex_t keyLock;
280: pthread_t tid;
288: long nWaitersBlocked; /* Number of threads blocked */
289: long nWaitersGone; /* Number of threads timed out */
290: long nWaitersToUnblock; /* Number of threads to unblock */
291: sem_t semBlockQueue; /* Queue up threads waiting for the */
296: pthread_mutex_t mtxUnblockLock; /* Mutex that guards access to */
299: pthread_cond_t next; /* Doubly linked list */
300: pthread_cond_t prev;
313: pthread_mutex_t mtxExclusiveAccess;
314: pthread_mutex_t mtxSharedAccessCompleted;
315: pthread_cond_t cndSharedAccessCompleted;
356: * (head of chain is key->threads)
393: * pthread_setspecific() on a key that has a specified
413: * The pthread_t->keys attribute is the head of a
416: * between a pthread_t and all pthread_key_t on which
417: * it called pthread_setspecific.
422: * nextThread
423: * The pthread_key_t->threads attribute is the head of
426: * relationship between a pthread_key_t and all the
427: * PThreads that have called pthread_setspecific for
428: * this pthread_key_t.
430: * prevThread
439: * pthread_setspecific if the user provided a
445: pthread_key_t key;
446: ThreadKeyAssoc *nextKey;
448: ThreadKeyAssoc *prevKey;
518: /* Declared in pthread_cancel.c */
527: extern pthread_key_t ptw32_selfThreadKey;
528: extern pthread_key_t ptw32_cleanupKey;
529: extern pthread_cond_t ptw32_cond_list_head;
530: extern pthread_cond_t ptw32_cond_list_tail;
548: extern int pthread_count;
564: int ptw32_is_attr (const pthread_attr_t * attr);
566: int ptw32_cond_check_need_init (pthread_cond_t * cond);
567: int ptw32_mutex_check_need_init (pthread_mutex_t * mutex);
568: int ptw32_rwlock_check_need_init (pthread_rwlock_t * rwlock);
581: HANDLE threadH, DWORD callback_arg);
587: void ptw32_threadDestroy (pthread_t tid);
591: pthread_t ptw32_new (void);
593: pthread_t ptw32_threadReusePop (void);
608: ptw32_threadStart (void *vthreadParms);
614: void ptw32_tkAssocDestroy (ThreadKeyAssoc * assoc);
649: _CRTIMP unsigned long __cdecl _beginthread (void (__cdecl ) (void ),
651: _CRTIMP void __cdecl _endthread (void);
689: #if defined(__CYGWIN32__) \|\| defined(__CYGWIN__) \|\| defined(NEED_CREATETHREAD)
692: * Macro uses args so we can cast start_proc to LPTHREAD_START_ROUTINE
702: CreateThread(security, \
704: (LPTHREAD_START_ROUTINE) start_proc, \
711: #endif /* __CYGWIN32__ \|\| __CYGWIN__ \|\| NEED_CREATETHREAD */
12: * Copyright(C) 1999,2005 Pthreads-win32 contributors
20: * http://sources.redhat.com/pthreads-win32/contributors.html
106: * state is greater or equal "PThreadStateRunning".
134: volatile PThreadState state;
425: * nextThreads link. This chain provides the 1 to many
652: _CRTIMP unsigned long __cdecl _beginthreadex (void *, unsigned,
655: _CRTIMP void __cdecl _endthreadex (unsigned);
685: * Question 1 - How do I get pthreads-win32 to link under Cygwin or Mingw32?

android.googlesource.com/platform/external/abseil-cpp:absl/synchronization/mutex.cc: [ master, ]
462: PerThreadSynch const thread; // thread* that is waiting
500: static PerThreadSynch *Synch_GetPerThread() {
488: static PerThreadSynch *const kPerThreadSynchNull =
505: static PerThreadSynch Synch_GetPerThreadAnnotated(Mutex mu) {
739: static inline PerThreadSynch *GetPerThreadSynch(intptr_t v) {
39: #include <thread> // NOLINT(build/c++11)
51: #include "absl/base/internal/thread_identity.h"
56: #include "absl/synchronization/internal/per_thread_sem.h"
70: ABSL_ATTRIBUTE_WEAK void AbslInternalMutexYield() { std::this_thread::yield(); }
78: #if defined(THREAD_SANITIZER)
148: // any thread to make progress gets it without undue delay.
427: // The SynchWaitParams struct encapsulates the way in which a thread is waiting:
430: // type of lock). It also points to the PerThreadSynch struct of its thread.
434: // PerThreadSynch because a thread can be waiting on multiple Mutexes if,
440: // the thread is on a Mutex's waiter queue.
444: PerThreadSynch *thread_arg,
450: thread(thread_arg),
454: const Mutex::MuHow how; // How this thread needs to wait.
455: const Condition cond; // The condition that this thread* is waiting for.
464: // If not null, thread should be enqueued on the CondVar whose state
468: int64_t contention_start_cycles; // Time (in cycles) when this thread started
480: // If a thread overfills the array during deadlock detection, we
483: // detecting when a thread releases a lock it does not hold.
499: // Return the PerThreadSynch-struct for this thread.
502: return &identity->per_thread_synch;
529: PerThreadSem::Post(w->thread_identity());
556: // Fix the per-thread state only if it exists.
559: identity->per_thread_synch.suppress_fatal_errors = true;
596: // INVARIANT1: there's a thread that was blocked on the mutex, is
601: // set when a thread is unblocked(INV1a), and threads that were
683: #ifdef THREAD_SANITIZER
743: // The next several routines maintain the per-thread next and skip fields
748: // For thread x, x->skip is one of:
751: // - a pointer to a distinct thread waiting later in the same Mutex queue
757: // first runnable thread y from the front a Mutex queue to adjust the skip
758: // field of another thread x because if x->skip==y, x->skip must (have) become
760: // thread from an arbitrary position in the queue whether runnable or not, so
769: // Returns the last thread y in a mutex waiter queue such that all threads in
772: // the range. Requires thread x is in a mutex waiter queue.
830: // Enqueue thread "waitp->thread" on a waiter queue.
836: // If waitp->cv_word == nullptr, queue the thread at either the front or
842: // whether this thread was transferred from a CondVar or is waiting for a
846: // returned. This mechanism is used by CondVar to queue a thread on the
858: PerThreadSynch s = waitp->thread*;
879: // Every so often, update our idea of the thread's priority.
964: // Dequeue the successor pw->next of thread pw from the Mutex waiter queue
1027: // Try to remove thread s from the list of waiters on this mutex.
1040: if ((w = pw->next) != s) { // search for thread,
1051: // don't search further if we found the thread, or we're about to
1052: // process the first thread again.
1055: if (w == s) { // found thread; remove it
1078: // Wait until thread "s", which must be the current thread, is removed from the
1111: // Wake thread w, and return the next thread in the list.
1162: // eventually followed by a call to LockLeave(mu, id, x) by the same thread.
1182: "thread releasing lock it does not hold: %p %s; "
1282: // Called in debug mode when a thread is about to acquire a lock in a way that
1299: // it can't always be the first lock acquired by a thread.
1303: // We prefer to keep stack traces that show a thread holding and acquiring
1309: // For each other mutex already held by this thread:
1402: ABSL_RAW_LOG(FATAL, "thread should not hold mutex %p %s",
1551: this->Block(waitp.thread);
1708: // the mutex if this thread has blocked, and therefore may be the designated
1774: // addition and this thread. So if we would enable race detection here,
1823: this->Block(waitp.thread);
1872: waitp->thread->waitp == nullptr \|\| waitp->thread->suppress_fatal_errors,
1888: this->Block(waitp->thread);
1895: // This thread tries to become the one and only waiter.
1909: waitp->thread->waitp = nullptr;
1931: this->Block(waitp->thread);
1956: this->Block(waitp->thread); // wait until removed from list or timeout
1962: waitp->thread->waitp == nullptr \|\| waitp->thread->suppress_fatal_errors,
1967: waitp->thread->waitp == nullptr \|\| waitp->thread->suppress_fatal_errors,
1976: // Unlock this mutex, which is held by the current thread.
1977: // If waitp is non-zero, it must be the wait parameters for the current thread
2002: ABSL_RAW_CHECK(waitp == nullptr \|\| waitp->thread->waitp == nullptr \|\|
2003: waitp->thread->suppress_fatal_errors,
2006: // the list of waiters. In addition, it places waitp.thread on the queue of
2187: // this thread's condition is not known false, AND
2281: // waiting thread may have been moved from the condition variable queue to the
2282: // mutex queue without a wakeup, by Trans(). In that case, when the thread is
2283: // finally woken, the woken thread will believe it has been woken from the
2292: // Used by CondVar implementation to effectively wake thread w from the
2293: // condition variable. If this mutex is free, we simply wake the thread.
2295: // enqueue thread w on this mutex.
2309: // conflicting != 0 implies that the waking thread cannot currently take
2321: // This thread tries to become the one and only waiter.
2353: ABSL_RAW_LOG(FATAL, "thread should hold write lock on Mutex %p %s",
2363: FATAL, "thread should hold at least a read lock on Mutex %p %s",
2393: // Remove thread s from the list of waiters on this condition variable.
2406: while (w->next != s && w->next != h) { // search for thread
2409: if (w->next == s) { // found thread; remove it
2428: // Queue thread waitp->thread on condition variable word cv_word using
2434: // to block this thread. That would be a problem if the thread were already on
2436: // to tell the unlock code to call CondVarEnqueue() to queue the thread on the
2441: // This thread might be transferred to the Mutex queue by Fer() when
2446: // this thread on another queue.
2459: ABSL_RAW_CHECK(waitp->thread->waitp == nullptr, "waiting when shouldn't be");
2460: waitp->thread->waitp = waitp; // prepare ourselves for waiting
2462: if (h == nullptr) { // add this thread to waiter list
2463: waitp->thread->next = waitp->thread;
2465: waitp->thread->next = h->next;
2466: h->next = waitp->thread;
2468: waitp->thread->state.store(PerThreadSynch::kQueued,
2470: cv_word->store((v & kCvEvent) \| reinterpret_cast<intptr_t>(waitp->thread),
2492: // Mutex, thus queuing this thread on the condition variable. See
2497: while (waitp.thread->state.load(std::memory_order_acquire) ==
2499: if (!Mutex::DecrementSynchSem(mutex, waitp.thread, t)) {
2500: this->Remove(waitp.thread);
2505: ABSL_RAW_CHECK(waitp.thread->waitp != nullptr, "not waiting when should be");
2506: waitp.thread->waitp = nullptr; // cleanup
2537: // Wake thread w
2543: // The waiting thread only needs to observe "w->state == kAvailable" to be
2611: do { // for every thread, wake it up
2637: #ifdef THREAD_SANITIZER
24: #include <pthread.h>
61: using absl::base_internal::ThreadIdentity;
501: ThreadIdentity *identity = GetOrCreateCurrentThreadIdentity();
509: PerThreadSynch *w = Synch_GetPerThread();
517: PerThreadSynch *s = Synch_GetPerThread();
540: assert(w == Synch_GetPerThread());
557: ThreadIdentity *identity = CurrentThreadIdentityIfPresent();
593: static const intptr_t kMuWait = 0x0004L; // threads are waiting
598: // designated waker, all threads can avoid taking the slow path in
729: // Return true iff threads x and y are waiting on the same condition for the
752: // such that all threads in [x, x->skip] have the same condition and
770: // [x, y] inclusive share the same condition. Sets skip fields of some threads
876: #ifdef ABSL_HAVE_PTHREAD_GETSCHEDPARAM
880: // pthread_getschedparam() is 5% of the block/wakeup time;
884: pthread_getschedparam(pthread_self(), &policy, &param);
1045: // in the threads we skipped; none can point to s
1998: PerThreadSynch wake_list = kPerThreadSynchNull; // list of thread*s to wake
2005: // This loop finds threads wake_list to wakeup if any, and removes them from
2645: // ThreadSanitizer does not instrument this file for memory accesses.
59: using absl::base_internal::CurrentThreadIdentityIfPresent;
60: using absl::base_internal::PerThreadSynch;
62: using absl::synchronization_internal::GetOrCreateCurrentThreadIdentity;
67: using absl::synchronization_internal::PerThreadSem;
439: // PerThreadSynch struct points at the most recent SynchWaitParams struct when
489: reinterpret_cast<PerThreadSynch *>(1);
519: s->all_locks = LocksHeldAlloc(); // Freed by ReclaimThreadIdentity.
524: // Post on "w"'s associated PerThreadSem.
525: inline void Mutex::IncrementSynchSem(Mutex mu, PerThreadSynch w) {
535: // Wait on "w"'s associated PerThreadSem; returns false if timeout expired.
536: bool Mutex::DecrementSynchSem(Mutex mu, PerThreadSynch w, KernelTimeout t) {
542: bool res = PerThreadSem::Wait(t);
569: // PerThreadSem::Wait() for consistency. Unfortunately, we don't have
627: // PerThreadSynch::readers of the most recently queued waiter, again in the
635: static_assert(PerThreadSynch::kAlignment > kMuLow,
636: "PerThreadSynch::kAlignment must be greater than kMuLow");
732: static bool MuSameCondition(PerThreadSynch x, PerThreadSynch y) {
737: // Given the contents of a mutex word containing a PerThreadSynch pointer,
740: return reinterpret_cast<PerThreadSynch *>(v & kMuHigh);
797: static PerThreadSynch Skip(PerThreadSynch x) {
798: PerThreadSynch *x0 = nullptr;
799: PerThreadSynch *x1 = x;
800: PerThreadSynch *x2 = x->skip;
816: static void FixSkip(PerThreadSynch ancestor, PerThreadSynch to_be_removed) {
849: static PerThreadSynch Enqueue(PerThreadSynch head,
875: PerThreadSynch *enqueue_after = nullptr; // we'll put s after this element
897: PerThreadSynch *advance_to = head; // next value of enqueue_after
898: PerThreadSynch *cur; // successor of enqueue_after
960: s->state.store(PerThreadSynch::kQueued, std::memory_order_relaxed);
968: static PerThreadSynch Dequeue(PerThreadSynch head, PerThreadSynch *pw) {
969: PerThreadSynch *w = pw->next;
991: static PerThreadSynch DequeueAllWakeable(PerThreadSynch head,
992: PerThreadSynch *pw,
993: PerThreadSynch **wake_tail) {
994: PerThreadSynch *orig_h = head;
995: PerThreadSynch *w = pw->next;
1029: void Mutex::TryRemove(PerThreadSynch *s) {
1036: PerThreadSynch *h = GetPerThreadSynch(v);
1038: PerThreadSynch *pw = h; // pw is w's predecessor
1039: PerThreadSynch *w;
1060: s->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
1083: void Mutex::Block(PerThreadSynch *s) {
1084: while (s->state.load(std::memory_order_acquire) == PerThreadSynch::kQueued) {
1112: PerThreadSynch Mutex::Wakeup(PerThreadSynch w) {
1113: PerThreadSynch *next = w->next;
1115: w->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
1544: how, &cond, t, nullptr /no cvmu/, Synch_GetPerThreadAnnotated(this),
1816: how, cond, t, nullptr /no cvmu/, Synch_GetPerThreadAnnotated(this),
1896: PerThreadSynch *new_h = Enqueue(nullptr, waitp, v, flags);
1919: PerThreadSynch *h = GetPerThreadSynch(v);
1940: PerThreadSynch *h = GetPerThreadSynch(v);
1941: PerThreadSynch *new_h = Enqueue(h, waitp, v, flags);
1991: PerThreadSynch *w = nullptr;
1993: PerThreadSynch *pw = nullptr;
1995: PerThreadSynch *old_h = nullptr;
2039: PerThreadSynch *new_h = nullptr;
2071: PerThreadSynch *h = GetPerThreadSynch(v);
2077: PerThreadSynch *new_h = Enqueue(h, waitp, v, kMuIsCond);
2134: PerThreadSynch *new_h = Enqueue(h, waitp, v, kMuIsCond);
2148: PerThreadSynch *w_walk; // current waiter during list walk
2149: PerThreadSynch *pw_walk; // previous waiter during list walk
2244: ABSL_RAW_CHECK(wake_list != kPerThreadSynchNull,
2261: if (wake_list != kPerThreadSynchNull) {
2266: } while (wake_list != kPerThreadSynchNull);
2296: void Mutex::Fer(PerThreadSynch *w) {
2316: w->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
2322: PerThreadSynch *new_h = Enqueue(nullptr, w->waitp, v, kMuIsCond);
2332: PerThreadSynch *h = GetPerThreadSynch(v);
2333: PerThreadSynch *new_h = Enqueue(h, w->waitp, v, kMuIsCond);
2377: static_assert(PerThreadSynch::kAlignment > kCvLow,
2378: "PerThreadSynch::kAlignment must be greater than kCvLow");
2394: void CondVar::Remove(PerThreadSynch *s) {
2403: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2405: PerThreadSynch *w = h;
2415: s->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
2461: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2490: Synch_GetPerThreadAnnotated(mutex), &cv_);
2498: PerThreadSynch::kQueued) {
2541: void CondVar::Wakeup(PerThreadSynch *w) {
2547: w->state.store(PerThreadSynch::kAvailable, std::memory_order_release);
2564: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2565: PerThreadSynch *w = nullptr;
2607: PerThreadSynch h = reinterpret_cast<PerThreadSynch >(v & ~kCvLow);
2609: PerThreadSynch *w;
2610: PerThreadSynch *n = h->next;

android.googlesource.com/platform/external/lzma:CPP/7zip/UI/Common/Bench.cpp: [ master, ]
694: NWindows::CThread thread[2];
1512: NWindows::CThread Thread;
1563: NWindows::CThread Thread;
799: HRESULT CreateEncoderThread()
804: HRESULT CreateDecoderThread(unsigned index, bool callbackMode
695: UInt32 NumDecoderSubThreads;
764: static THREAD_FUNC_DECL EncodeThreadFunction(void *param)
786: static THREAD_FUNC_DECL DecodeThreadFunction(void *param)
1141: static const UInt32 kNumThreadsMax = (1 << 12);
1526: static THREAD_FUNC_DECL FreqThreadFunction(void *param)
1542: struct CFreqThreads
1545: UInt32 NumThreads;
1547: CFreqThreads(): Items(NULL), NumThreads(0) {}
1554: ~CFreqThreads()
1586: static THREAD_FUNC_DECL CrcThreadFunction(void *param)
1600: struct CCrcThreads
1603: UInt32 NumThreads;
1605: CCrcThreads(): Items(NULL), NumThreads(0) {}
1612: ~CCrcThreads()
1867: AString GetProcessThreadsInfo(const NSystem::CProcessAffinity &ti)
2419: static UInt32 GetNumThreadsNext(unsigned i, UInt32 numThreads)
37: #include "../../../Windows/Thread.h"
801: return thread[0].Create(EncodeThreadFunction, this);
819: return thread[index].Create(DecodeThreadFunction, &decoder);
1313: encoders[i].thread[0].Wait();
1386: encoder.thread[j].Wait();
1403: if (::GetThreadTimes(encoders[i].thread[j], &creationTime, &exitTime, &kernelTime, &userTime) != 0)
1521: Thread.Wait();
1522: Thread.Close();
1581: Thread.Wait();
1582: Thread.Close();
2166: RINOK(info.Thread.Create(FreqThreadFunction, &info));
2302: RINOK(info.Thread.Create(CrcThreadFunction, &info));
441: ::GetThreadTimes(::GetCurrentThread()
1301: RINOK(encoder.CreateEncoderThread())
1364: HRESULT res = encoder.CreateDecoderThread(j, (i == 0 && j == 0)
1427: static inline UInt64 GetLZMAUsage(bool multiThread, UInt32 dictionary)
1440: (1 << 20) + (multiThread ? (6 << 20) : 0);
1934: bool size_Defined, UInt64 size, const char *threadsString, UInt32 numThreads)
1953: f.Print(threadsString);
2149: CFreqThreads threads;
2152: threads.Items = new CFreqInfo[numThreads];
2156: CFreqInfo &info = threads.Items[i];
2165: CFreqInfo &info = threads.Items[i];
2167: threads.NumThreads++;
2169: threads.WaitAll();
2172: RINOK(threads.Items[i].CallbackRes);
2258: CCrcThreads threads;
2261: threads.Items = new CCrcInfo[numThreads];
2266: CCrcInfo &info = threads.Items[i];
2301: CCrcInfo &info = threads.Items[i];
2303: threads.NumThreads++;
2305: threads.WaitAll();
2308: RINOK(threads.Items[i].Res);
2801: NSystem::CProcessAffinity threadsInfo;
2802: threadsInfo.InitST();
2806: if (threadsInfo.Get() && threadsInfo.processAffinityMask != 0)
2807: numCPUs = threadsInfo.GetNumProcessThreads();
3044: PrintRequirements(printCallback, "size: ", ramSize_Defined, ramSize, "CPU hardware thread*s:", numCPUs);
3045: printCallback->Print(GetProcessThreadsInfo(threadsInfo));
3198: // ---------- Threads loop ----------
3199: for (unsigned threadsPassIndex = 0; threadsPassIndex < 3; threadsPassIndex++)
3206: if (threadsPassIndex != 0)
3212: if (threadsPassIndex != 0)
3217: if (threadsPassIndex == 1)
3233: if (threadsPassIndex > 0)
3263: PrintRequirements(f, "usage:", true, GetBenchMemoryUsage(numThreads, dict, totalBenchMode), "Benchmark threads: ", numThreads);
1063: RINOK(setCoderMt->SetNumberOfThreads(NumDecoderSubThreads));
1170: numThreads
1194: UInt32 numEncoderThreads = 1;
1195: UInt32 numSubDecoderThreads = 1;
1198: numEncoderThreads = numThreads;
1202: if (numThreads == 1 && method.Get_NumThreads() < 0)
1203: method.AddProp_NumThreads(1);
1204: const UInt32 numLzmaThreads = method.Get_Lzma_NumThreads();
1205: if (numThreads > 1 && numLzmaThreads > 1)
1207: numEncoderThreads = numThreads / 2;
1208: numSubDecoderThreads = 2;
1213: CBenchEncoders encodersSpec(numEncoderThreads);
1218: for (i = 0; i < numEncoderThreads; i++)
1239: for (UInt32 j = 0; j < numSubDecoderThreads; j++)
1257: for (i = 0; i < numEncoderThreads; i++)
1273: for (i = 0; i < numEncoderThreads; i++)
1290: bpi->BenchInfo.NumIterations = numEncoderThreads;
1295: if (numEncoderThreads > 1)
1311: if (numEncoderThreads > 1)
1312: for (i = 0; i < numEncoderThreads; i++)
1325: for (i = 0; i < numEncoderThreads; i++)
1338: UInt32 numDecoderThreads = numEncoderThreads * numSubDecoderThreads;
1340: for (i = 0; i < numEncoderThreads; i++)
1349: bpi->BenchInfo.NumIterations = numDecoderThreads;
1357: int numSubThreads = method.Get_NumThreads();
1358: encoder.NumDecoderSubThreads = (numSubThreads <= 0) ? 1 : numSubThreads;
1360: if (numDecoderThreads > 1)
1362: for (UInt32 j = 0; j < numSubDecoderThreads; j++)
1366: , ((i * numSubDecoderThreads + j) * 16 * 21) & 0x7FF
1381: if (numDecoderThreads > 1)
1382: for (i = 0; i < numEncoderThreads; i++)
1383: for (UInt32 j = 0; j < numSubDecoderThreads; j++)
1398: if (numDecoderThreads > 1)
1399: for (i = 0; i < numEncoderThreads; i++)
1400: for (UInt32 j = 0; j < numSubDecoderThreads; j++)
1411: info.NumIterations = numSubDecoderThreads * encoders[0].NumIterations;
1413: for (i = 0; i < numEncoderThreads; i++)
1443: UInt64 GetBenchMemoryUsage(UInt32 numThreads, UInt32 dictionary, bool totalBench)
1447: bool lzmaMt = (totalBench \|\| numThreads > 1);
1448: UInt32 numBigThreads = numThreads;
1450: numBigThreads /= 2;
1452: GetLZMAUsage(lzmaMt, dictionary) + (2 << 20)) * numBigThreads;
1550: for (UInt32 i = 0; i < NumThreads; i++)
1552: NumThreads = 0;
1608: for (UInt32 i = 0; i < NumThreads; i++)
1610: NumThreads = 0;
1870: // s.Add_UInt32(ti.numProcessThreads);
1873: // if (ti.numProcessThreads != ti.numSysThreads)
1876: s.Add_UInt32(ti.GetNumSystemThreads());
1954: PrintNumber(f, numThreads, 3);
2068: UInt32 numThreads,
2097: false, numThreads, method,
2122: UInt32 numThreads,
2134: if (numThreads == 0)
2135: numThreads = 1;
2138: numThreads = 1;
2150: if (numThreads > 1)
2154: for (i = 0; i < numThreads; i++)
2163: for (i = 0; i < numThreads; i++)
2170: for (i = 0; i < numThreads; i++)
2198: UInt64 numCommands = (UInt64)numIterations * bufferSize * numThreads * complexity;
2200: cpuFreq = rating / numThreads;
2217: UInt32 numThreads, UInt32 bufferSize,
2226: if (numThreads == 0)
2227: numThreads = 1;
2230: numThreads = 1;
2242: size_t totalSize = (size_t)bufferSize * numThreads;
2243: if (totalSize / numThreads != bufferSize)
2259: if (numThreads > 1)
2264: for (i = 0; i < numThreads; i++)
2299: for (i = 0; i < numThreads; i++)
2306: for (i = 0; i < numThreads; i++)
2335: UInt64 unpSizeThreads = unpSize * numThreads;
2336: info.UnpackSize = unpSizeThreads;
2337: info.PackSize = unpSizeThreads;
2343: UInt64 numCommands = unpSizeThreads * complexity / 256;
2352: speed = info.GetSpeed(unpSizeThreads);
2360: UInt32 numThreads, UInt32 bufSize,
2382: numThreads, bufSize,
2425: return (num <= numThreads) ? num : numThreads;
2815: UInt32 numThreadsSpecified = numCPUs;
2821: bool multiThreadTests = false;
2905: multiThreadTests = true;
2909: RINOK(ParseMtProp(s, propVariant, numCPUs, numThreadsSpecified));
3049: if (numThreadsSpecified < 1 \|\| numThreadsSpecified > kNumThreadsMax)
3067: true, numThreadsSpecified,
3125: unsigned numThreadsTests = 0;
3128: UInt32 t = GetNumThreadsNext(numThreadsTests, numThreadsSpecified);
3130: numThreadsTests++;
3131: if (t >= numThreadsSpecified)
3136: CTempValues speedTotals(numThreadsTests);
3138: for (unsigned ti = 0; ti < numThreadsTests; ti++)
3158: for (unsigned ti = 0; ti < numThreadsTests; ti++)
3161: UInt32 t = GetNumThreadsNext(ti, numThreadsSpecified);
3179: for (unsigned ti = 0; ti < numThreadsTests; ti++)
3202: UInt32 numThreads = numThreadsSpecified;
3204: if (!multiThreadTests)
3211: numThreads = 1;
3216: numThreads = numCPUs;
3220: numThreads = numCPUs / 2;
3250: if (GetBenchMemoryUsage(numThreads, ((UInt32)1 << dicSizeLog), totalBenchMode) + (8 << 20) <= ramSize)
3361: RINOK(FreqBench(complexInCommands, numThreads, printCallback,
3380: complexInCommands, numThreads,
3388: res = TotalBench_Hash(EXTERNAL_CODECS_LOC_VARS complexInCommands, numThreads,
3397: RINOK(FreqBench(complexInCommands, numThreads, printCallback,
3487: true, numThreads,

chromium.googlesource.com/chromium/src/sandbox:win/src/nt_internals.h: [ master, ] Duplicate result

chromium.googlesource.com/chromium/deps/psyco_win32:psyco/profiler.py: [ master, ]
20: import dummy_thread as thread
365: def psyco_start_new_thread(callable, args, kw=None):
371: original_start_new_thread = thread.start_new_thread
358: def psyco_thread_stub(callable, args, kw):
18: import thread
32: # a lock for a thread-safe go()
33: go_lock = thread.allocate_lock()
260: self.lock = thread.allocate_lock()
343: # and thread.start_new_thread().
366: "This is the Psyco-aware version of thread.start_new_thread()."
367: return original_start_new_thread(psyco_thread_stub, (callable, args, kw))
374: thread.start_new_thread = psyco_start_new_thread
375: # hack to patch threading._start_new_thread if the module is
378: hasattr(sys.modules['threading'], '_start_new_thread')):
379: sys.modules['threading']._start_new_thread = psyco_start_new_thread
204: alarm.stop(1) # wait for parallel threads to stop
377: if ('threading' in sys.modules and

android.googlesource.com/platform/external/libchrome:base/debug/activity_tracker.h: [ master, ]
119: } thread;
118: int64_t thread_id; // A unique identifier for a thread within a process.
279: ACT_THREAD = 4 << 4,
594: std::string thread_name;
604: int64_t thread_id = 0;
751: const PlatformThreadRef thread_id_; // The thread this instance is bound to.
1208: std::atomic<int> thread_tracker_count_;
1211: ActivityTrackerMemoryAllocator thread_tracker_allocator_;
1212: Lock thread_tracker_allocator_lock_;
160: static ActivityData ForThread(const int64_t id) {
574: class BASE_EXPORT ThreadActivityTracker {
957: ThreadActivityTracker* GetTrackerForCurrentThread() {
964: ThreadActivityTracker* GetOrCreateTrackerForCurrentThread() {
1084: class ThreadSafeUserData : public ActivityUserData {
280: ACT_THREAD_START = ACT_THREAD,
281: ACT_THREAD_JOIN,
1205: ThreadLocalStorage::Slot this_thread_tracker_;
840: class BASE_EXPORT ScopedThreadActivity
1076: kMaxThreadCount = 100,
1077: kCachedThreadMemories = 10,
1335: class BASE_EXPORT ScopedThreadJoinActivity
1339: explicit ScopedThreadJoinActivity(const PlatformThreadHandle* thread)
36: #include "base/threading/platform_thread.h"
37: #include "base/threading/thread_local_storage.h"
162: data.thread.thread_id = id;
184: // persistent memory allocator. Instances of this class are NOT thread-safe.
185: // Use from a single thread or protect access with a lock.
263: // Task activities involve callbacks posted to a thread or thread-pool
278: // Thread activities involve the life management of threads.
309: // from a completely different thread though most activities will leave
345: // done by a thread by supporting key/value pairs of any type. This can provide
347: // global data. All updates must be done from the same thread though other
411: // contents have been overwritten by another thread. The return value is
537: // gone away (cleared by another thread/process), it will invalidate all the
565: // This class manages tracking a stack of activities for a single thread in
568: // thread is analyzing this data in real-time, atomic operations are used
578: // This structure contains all the common information about the thread so
585: // so that continued operation of the thread will not cause changes here.
592: // The name of the thread as set when it was created. The name may be
599: // The process and thread IDs. These values have no meaning other than
600: // they uniquely identify a running process and a running thread within
601: // that process. Thread-IDs can be re-used across different processes
602: // and both can be re-used after the process/thread exits.
606: // The current stack of activities that are underway for this thread. It
635: // The thread tracker to which this object reports. It can be null if
748: // The ActivityTracker is thread bound, and will be invoked across all the
749: // sequences that run on the thread. A ThreadChecker does not work here, as it
761: // The global tracker manages all the individual thread trackers. Memory for
762: // the thread trackers is taken from a PersistentMemoryAllocator which allows
837: // This is a thin wrapper around the thread-tracker's ScopedActivity that
838: // allows thread-safe access to data values. It is safe to use even if
854: // Gets (or creates) a tracker for the current thread. If locking is not
857: // the tracker for this thread has been created for other reasons, locks
858: // will be tracked. The thread-tracker uses locks.
865: // if code that runs late during thread destruction tries to use a
885: // providing the given \|stack_depth\| to each thread tracker it manages. The
941: // calling this. Tracking for the current thread will be automatically
953: // Gets the thread's activity-tracker if it exists. This is inline for
954: // performance reasons and it uses thread-local-storage (TLS) so that there
956: // thread. Ownership remains with the global tracker.
958: return reinterpret_cast<ThreadActivityTracker*>(this_thread_tracker_.Get());
961: // Gets the thread's activity-tracker or creates one if none exists. This
971: // Creates an activity-tracker for the current thread.
974: // Releases the activity-tracker for the current thread (for testing only).
1039: // Record field trial information. This call is thread-safe. In addition to
1050: // Record exception information for the current thread.
1065: // Updates to this are thread-safe.
1081: // A wrapper around ActivityUserData that is thread-safe and thus can be used
1083: // thread.
1145: // A thin wrapper around the main thread-tracker that keeps additional
1154: // The reference into persistent memory from which the thread-tracker's
1158: // The physical address used for the thread-tracker's memory.
1166: // providing the given \|stack_depth\| to each thread tracker it manages. The
1181: // Releases the activity-tracker associcated with thread. It is called
1182: // automatically when a thread is joined and thus there is nothing more to
1186: // Does process-exit work. This can be run on any thread.
1204: // The activity tracker for the currently executing thread.
1207: // The number of thread trackers currently active.
1210: // A caching memory allocator for thread-tracker objects.
1218: // An object for holding arbitrary key value pairs with thread-safe access.
1239: // the \|background_task_runner_\| if one is set or whatever thread reaped
1340: : ScopedThreadJoinActivity(GetProgramCounter(), thread) {}
1344: const PlatformThreadHandle* thread);