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316 lines
8.6 KiB
C
316 lines
8.6 KiB
C
/*
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* Portable condition variable support for windows and pthreads.
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* Everything is inline, this header can be included where needed.
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*
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* APIs generally return 0 on success and non-zero on error,
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* and the caller needs to use its platform's error mechanism to
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* discover the error (errno, or GetLastError())
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*
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* Note that some implementations cannot distinguish between a
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* condition variable wait time-out and successful wait. Most often
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* the difference is moot anyway since the wait condition must be
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* re-checked.
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* PyCOND_TIMEDWAIT, in addition to returning negative on error,
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* thus returns 0 on regular success, 1 on timeout
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* or 2 if it can't tell.
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*
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* There are at least two caveats with using these condition variables,
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* due to the fact that they may be emulated with Semaphores on
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* Windows:
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* 1) While PyCOND_SIGNAL() will wake up at least one thread, we
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* cannot currently guarantee that it will be one of the threads
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* already waiting in a PyCOND_WAIT() call. It _could_ cause
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* the wakeup of a subsequent thread to try a PyCOND_WAIT(),
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* including the thread doing the PyCOND_SIGNAL() itself.
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* The same applies to PyCOND_BROADCAST(), if N threads are waiting
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* then at least N threads will be woken up, but not necessarily
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* those already waiting.
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* For this reason, don't make the scheduling assumption that a
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* specific other thread will get the wakeup signal
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* 2) The _mutex_ must be held when calling PyCOND_SIGNAL() and
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* PyCOND_BROADCAST().
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* While e.g. the posix standard strongly recommends that the mutex
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* associated with the condition variable is held when a
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* pthread_cond_signal() call is made, this is not a hard requirement,
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* although scheduling will not be "reliable" if it isn't. Here
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* the mutex is used for internal synchronization of the emulated
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* Condition Variable.
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*/
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#ifndef _CONDVAR_IMPL_H_
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#define _CONDVAR_IMPL_H_
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#include "Python.h"
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#include "pycore_pythread.h" // _POSIX_THREADS
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#ifdef _POSIX_THREADS
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/*
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* POSIX support
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*/
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/* These private functions are implemented in Python/thread_pthread.h */
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int _PyThread_cond_init(PyCOND_T *cond);
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void _PyThread_cond_after(long long us, struct timespec *abs);
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/* The following functions return 0 on success, nonzero on error */
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#define PyMUTEX_INIT(mut) pthread_mutex_init((mut), NULL)
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#define PyMUTEX_FINI(mut) pthread_mutex_destroy(mut)
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#define PyMUTEX_LOCK(mut) pthread_mutex_lock(mut)
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#define PyMUTEX_UNLOCK(mut) pthread_mutex_unlock(mut)
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#define PyCOND_INIT(cond) _PyThread_cond_init(cond)
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#define PyCOND_FINI(cond) pthread_cond_destroy(cond)
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#define PyCOND_SIGNAL(cond) pthread_cond_signal(cond)
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#define PyCOND_BROADCAST(cond) pthread_cond_broadcast(cond)
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#define PyCOND_WAIT(cond, mut) pthread_cond_wait((cond), (mut))
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/* return 0 for success, 1 on timeout, -1 on error */
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Py_LOCAL_INLINE(int)
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PyCOND_TIMEDWAIT(PyCOND_T *cond, PyMUTEX_T *mut, long long us)
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{
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struct timespec abs_timeout;
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_PyThread_cond_after(us, &abs_timeout);
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int ret = pthread_cond_timedwait(cond, mut, &abs_timeout);
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if (ret == ETIMEDOUT) {
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return 1;
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}
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if (ret) {
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return -1;
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}
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return 0;
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}
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#elif defined(NT_THREADS)
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/*
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* Windows (XP, 2003 server and later, as well as (hopefully) CE) support
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*
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* Emulated condition variables ones that work with XP and later, plus
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* example native support on VISTA and onwards.
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*/
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#if _PY_EMULATED_WIN_CV
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/* The mutex is a CriticalSection object and
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The condition variables is emulated with the help of a semaphore.
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This implementation still has the problem that the threads woken
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with a "signal" aren't necessarily those that are already
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waiting. It corresponds to listing 2 in:
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http://birrell.org/andrew/papers/ImplementingCVs.pdf
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Generic emulations of the pthread_cond_* API using
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earlier Win32 functions can be found on the web.
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The following read can be give background information to these issues,
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but the implementations are all broken in some way.
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http://www.cse.wustl.edu/~schmidt/win32-cv-1.html
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*/
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Py_LOCAL_INLINE(int)
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PyMUTEX_INIT(PyMUTEX_T *cs)
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{
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InitializeCriticalSection(cs);
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyMUTEX_FINI(PyMUTEX_T *cs)
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{
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DeleteCriticalSection(cs);
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyMUTEX_LOCK(PyMUTEX_T *cs)
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{
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EnterCriticalSection(cs);
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyMUTEX_UNLOCK(PyMUTEX_T *cs)
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{
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LeaveCriticalSection(cs);
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyCOND_INIT(PyCOND_T *cv)
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{
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/* A semaphore with a "large" max value, The positive value
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* is only needed to catch those "lost wakeup" events and
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* race conditions when a timed wait elapses.
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*/
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cv->sem = CreateSemaphore(NULL, 0, 100000, NULL);
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if (cv->sem==NULL)
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return -1;
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cv->waiting = 0;
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyCOND_FINI(PyCOND_T *cv)
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{
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return CloseHandle(cv->sem) ? 0 : -1;
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}
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/* this implementation can detect a timeout. Returns 1 on timeout,
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* 0 otherwise (and -1 on error)
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*/
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Py_LOCAL_INLINE(int)
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_PyCOND_WAIT_MS(PyCOND_T *cv, PyMUTEX_T *cs, DWORD ms)
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{
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DWORD wait;
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cv->waiting++;
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PyMUTEX_UNLOCK(cs);
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/* "lost wakeup bug" would occur if the caller were interrupted here,
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* but we are safe because we are using a semaphore which has an internal
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* count.
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*/
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wait = WaitForSingleObjectEx(cv->sem, ms, FALSE);
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PyMUTEX_LOCK(cs);
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if (wait != WAIT_OBJECT_0)
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--cv->waiting;
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/* Here we have a benign race condition with PyCOND_SIGNAL.
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* When failure occurs or timeout, it is possible that
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* PyCOND_SIGNAL also decrements this value
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* and signals releases the mutex. This is benign because it
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* just means an extra spurious wakeup for a waiting thread.
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* ('waiting' corresponds to the semaphore's "negative" count and
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* we may end up with e.g. (waiting == -1 && sem.count == 1). When
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* a new thread comes along, it will pass right through, having
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* adjusted it to (waiting == 0 && sem.count == 0).
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*/
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if (wait == WAIT_FAILED)
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return -1;
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/* return 0 on success, 1 on timeout */
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return wait != WAIT_OBJECT_0;
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}
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Py_LOCAL_INLINE(int)
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PyCOND_WAIT(PyCOND_T *cv, PyMUTEX_T *cs)
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{
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int result = _PyCOND_WAIT_MS(cv, cs, INFINITE);
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return result >= 0 ? 0 : result;
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}
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Py_LOCAL_INLINE(int)
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PyCOND_TIMEDWAIT(PyCOND_T *cv, PyMUTEX_T *cs, long long us)
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{
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return _PyCOND_WAIT_MS(cv, cs, (DWORD)(us/1000));
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}
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Py_LOCAL_INLINE(int)
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PyCOND_SIGNAL(PyCOND_T *cv)
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{
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/* this test allows PyCOND_SIGNAL to be a no-op unless required
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* to wake someone up, thus preventing an unbounded increase of
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* the semaphore's internal counter.
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*/
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if (cv->waiting > 0) {
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/* notifying thread decreases the cv->waiting count so that
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* a delay between notify and actual wakeup of the target thread
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* doesn't cause a number of extra ReleaseSemaphore calls.
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*/
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cv->waiting--;
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return ReleaseSemaphore(cv->sem, 1, NULL) ? 0 : -1;
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}
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyCOND_BROADCAST(PyCOND_T *cv)
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{
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int waiting = cv->waiting;
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if (waiting > 0) {
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cv->waiting = 0;
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return ReleaseSemaphore(cv->sem, waiting, NULL) ? 0 : -1;
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}
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return 0;
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}
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#else /* !_PY_EMULATED_WIN_CV */
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Py_LOCAL_INLINE(int)
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PyMUTEX_INIT(PyMUTEX_T *cs)
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{
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InitializeSRWLock(cs);
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyMUTEX_FINI(PyMUTEX_T *cs)
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{
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyMUTEX_LOCK(PyMUTEX_T *cs)
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{
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AcquireSRWLockExclusive(cs);
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyMUTEX_UNLOCK(PyMUTEX_T *cs)
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{
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ReleaseSRWLockExclusive(cs);
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyCOND_INIT(PyCOND_T *cv)
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{
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InitializeConditionVariable(cv);
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyCOND_FINI(PyCOND_T *cv)
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{
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyCOND_WAIT(PyCOND_T *cv, PyMUTEX_T *cs)
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{
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return SleepConditionVariableSRW(cv, cs, INFINITE, 0) ? 0 : -1;
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}
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/* return 0 for success, 1 on timeout, -1 on error */
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Py_LOCAL_INLINE(int)
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PyCOND_TIMEDWAIT(PyCOND_T *cv, PyMUTEX_T *cs, long long us)
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{
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BOOL success = SleepConditionVariableSRW(cv, cs, (DWORD)(us/1000), 0);
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if (!success) {
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if (GetLastError() == ERROR_TIMEOUT) {
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return 1;
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}
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return -1;
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}
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyCOND_SIGNAL(PyCOND_T *cv)
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{
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WakeConditionVariable(cv);
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return 0;
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}
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Py_LOCAL_INLINE(int)
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PyCOND_BROADCAST(PyCOND_T *cv)
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{
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WakeAllConditionVariable(cv);
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return 0;
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}
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#endif /* _PY_EMULATED_WIN_CV */
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#endif /* _POSIX_THREADS, NT_THREADS */
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#endif /* _CONDVAR_IMPL_H_ */
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