2002-08-02 23:57:46 +04:00
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/*
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* synergy -- mouse and keyboard sharing utility
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* Copyright (C) 2002 Chris Schoeneman
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*
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* This package is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* found in the file COPYING that should have accompanied this file.
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*
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* This package is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*/
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2001-10-06 18:13:28 +04:00
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#include "CCondVar.h"
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#include "CStopwatch.h"
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//
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// CCondVarBase
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//
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CCondVarBase::CCondVarBase(CMutex* mutex) :
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2002-06-11 02:06:45 +04:00
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m_mutex(mutex)
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2002-06-19 15:23:49 +04:00
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#if WINDOWS_LIKE
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2002-06-11 02:06:45 +04:00
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, m_waitCountMutex()
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2001-10-06 18:13:28 +04:00
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#endif
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{
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assert(m_mutex != NULL);
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init();
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}
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CCondVarBase::~CCondVarBase()
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{
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fini();
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}
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2002-06-11 02:06:45 +04:00
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void
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CCondVarBase::lock() const
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2001-10-06 18:13:28 +04:00
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{
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m_mutex->lock();
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}
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2002-06-11 02:06:45 +04:00
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void
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CCondVarBase::unlock() const
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2001-10-06 18:13:28 +04:00
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{
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m_mutex->unlock();
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}
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2002-06-11 02:06:45 +04:00
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bool
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CCondVarBase::wait(double timeout) const
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2001-10-06 18:13:28 +04:00
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{
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CStopwatch timer(true);
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return wait(timer, timeout);
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}
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2002-06-11 02:06:45 +04:00
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CMutex*
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CCondVarBase::getMutex() const
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2001-10-06 18:13:28 +04:00
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{
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return m_mutex;
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}
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2002-06-19 15:23:49 +04:00
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#if HAVE_PTHREAD
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2001-10-06 18:13:28 +04:00
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#include "CThread.h"
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#include <pthread.h>
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2002-08-01 15:45:21 +04:00
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#if TIME_WITH_SYS_TIME
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# include <sys/time.h>
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# include <time.h>
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#else
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# if HAVE_SYS_TIME_H
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# include <sys/time.h>
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# else
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# include <time.h>
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# endif
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#endif
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2002-06-11 02:06:45 +04:00
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#include <cerrno>
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2001-10-06 18:13:28 +04:00
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2002-06-11 02:06:45 +04:00
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void
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CCondVarBase::init()
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2001-10-06 18:13:28 +04:00
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{
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pthread_cond_t* cond = new pthread_cond_t;
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int status = pthread_cond_init(cond, NULL);
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assert(status == 0);
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m_cond = reinterpret_cast<pthread_cond_t*>(cond);
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}
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2002-06-11 02:06:45 +04:00
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void
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CCondVarBase::fini()
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2001-10-06 18:13:28 +04:00
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{
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pthread_cond_t* cond = reinterpret_cast<pthread_cond_t*>(m_cond);
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int status = pthread_cond_destroy(cond);
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assert(status == 0);
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delete cond;
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}
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2002-06-11 02:06:45 +04:00
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void
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CCondVarBase::signal()
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2001-10-06 18:13:28 +04:00
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{
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pthread_cond_t* cond = reinterpret_cast<pthread_cond_t*>(m_cond);
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int status = pthread_cond_signal(cond);
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assert(status == 0);
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}
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2002-06-11 02:06:45 +04:00
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void
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CCondVarBase::broadcast()
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2001-10-06 18:13:28 +04:00
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{
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pthread_cond_t* cond = reinterpret_cast<pthread_cond_t*>(m_cond);
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int status = pthread_cond_broadcast(cond);
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assert(status == 0);
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}
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2002-06-11 02:06:45 +04:00
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bool
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2002-06-17 17:31:21 +04:00
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CCondVarBase::wait(CStopwatch& timer, double timeout) const
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2001-10-06 18:13:28 +04:00
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{
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// check timeout against timer
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if (timeout >= 0.0) {
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timeout -= timer.getTime();
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if (timeout < 0.0)
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return false;
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}
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// get condition variable and mutex
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pthread_cond_t* cond = reinterpret_cast<pthread_cond_t*>(m_cond);
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pthread_mutex_t* mutex = reinterpret_cast<pthread_mutex_t*>(m_mutex->m_mutex);
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// get final time
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struct timeval now;
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gettimeofday(&now, NULL);
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struct timespec finalTime;
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finalTime.tv_sec = now.tv_sec;
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finalTime.tv_nsec = now.tv_usec * 1000;
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if (timeout >= 0.0) {
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const long timeout_sec = (long)timeout;
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const long timeout_nsec = (long)(1000000000.0 * (timeout - timeout_sec));
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finalTime.tv_sec += timeout_sec;
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finalTime.tv_nsec += timeout_nsec;
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if (finalTime.tv_nsec >= 1000000000) {
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finalTime.tv_nsec -= 1000000000;
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finalTime.tv_sec += 1;
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}
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}
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// repeat until we reach the final time
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int status;
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for (;;) {
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// compute the next timeout
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gettimeofday(&now, NULL);
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struct timespec endTime;
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endTime.tv_sec = now.tv_sec;
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endTime.tv_nsec = now.tv_usec * 1000 + 50000000;
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if (endTime.tv_nsec >= 1000000000) {
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endTime.tv_nsec -= 1000000000;
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endTime.tv_sec += 1;
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}
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// see if we should cancel this thread
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CThread::testCancel();
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// done if past final timeout
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if (timeout >= 0.0) {
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if (endTime.tv_sec > finalTime.tv_sec ||
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(endTime.tv_sec == finalTime.tv_sec &&
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endTime.tv_nsec >= finalTime.tv_nsec)) {
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status = ETIMEDOUT;
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break;
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}
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}
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// wait
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status = pthread_cond_timedwait(cond, mutex, &endTime);
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// check for cancel again
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CThread::testCancel();
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// check wait status
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2002-06-11 02:06:45 +04:00
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if (status != ETIMEDOUT && status != EINTR) {
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2001-10-06 18:13:28 +04:00
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break;
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2002-06-11 02:06:45 +04:00
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}
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2001-10-06 18:13:28 +04:00
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}
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switch (status) {
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2002-04-29 18:40:01 +04:00
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case 0:
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2001-10-06 18:13:28 +04:00
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// success
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return true;
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2002-04-29 18:40:01 +04:00
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case ETIMEDOUT:
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2001-10-06 18:13:28 +04:00
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return false;
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2002-04-29 18:40:01 +04:00
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default:
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2001-10-06 18:13:28 +04:00
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assert(0 && "condition variable wait error");
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return false;
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}
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}
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2002-06-19 15:23:49 +04:00
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#endif // HAVE_PTHREAD
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2001-10-06 18:13:28 +04:00
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2002-06-19 15:23:49 +04:00
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#if WINDOWS_LIKE
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2001-10-06 18:13:28 +04:00
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#include "CLock.h"
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#include "CThreadRep.h"
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2002-06-10 20:49:46 +04:00
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#define WIN32_LEAN_AND_MEAN
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2001-10-06 18:13:28 +04:00
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#include <windows.h>
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//
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// note -- implementation taken from
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// http://www.cs.wustl.edu/~schmidt/win32-cv-1.html
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// titled "Strategies for Implementing POSIX Condition Variables
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// on Win32." it also provides an implementation that doesn't
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// suffer from the incorrectness problem described in our
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// corresponding header but it is slower, still unfair, and
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// can cause busy waiting.
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//
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2002-06-11 02:06:45 +04:00
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void
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CCondVarBase::init()
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2001-10-06 18:13:28 +04:00
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{
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// prepare events
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HANDLE* events = new HANDLE[2];
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2002-04-29 18:40:01 +04:00
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events[kSignal] = CreateEvent(NULL, FALSE, FALSE, NULL);
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events[kBroadcast] = CreateEvent(NULL, TRUE, FALSE, NULL);
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2001-10-06 18:13:28 +04:00
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// prepare members
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m_cond = reinterpret_cast<void*>(events);
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m_waitCount = 0;
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}
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2002-06-11 02:06:45 +04:00
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void
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CCondVarBase::fini()
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2001-10-06 18:13:28 +04:00
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{
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HANDLE* events = reinterpret_cast<HANDLE*>(m_cond);
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2002-04-29 18:40:01 +04:00
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CloseHandle(events[kSignal]);
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CloseHandle(events[kBroadcast]);
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2001-10-06 18:13:28 +04:00
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delete[] events;
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}
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2002-06-11 02:06:45 +04:00
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void
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CCondVarBase::signal()
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2001-10-06 18:13:28 +04:00
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{
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// is anybody waiting?
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bool hasWaiter;
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{
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CLock lock(&m_waitCountMutex);
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hasWaiter = (m_waitCount > 0);
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}
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// wake one thread if anybody is waiting
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2002-06-11 02:06:45 +04:00
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if (hasWaiter) {
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2002-04-29 18:40:01 +04:00
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SetEvent(reinterpret_cast<HANDLE*>(m_cond)[kSignal]);
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2002-06-11 02:06:45 +04:00
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}
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2001-10-06 18:13:28 +04:00
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}
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2002-06-11 02:06:45 +04:00
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void
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CCondVarBase::broadcast()
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2001-10-06 18:13:28 +04:00
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{
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// is anybody waiting?
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bool hasWaiter;
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{
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CLock lock(&m_waitCountMutex);
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hasWaiter = (m_waitCount > 0);
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}
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// wake all threads if anybody is waiting
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2002-06-11 02:06:45 +04:00
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if (hasWaiter) {
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2002-04-29 18:40:01 +04:00
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SetEvent(reinterpret_cast<HANDLE*>(m_cond)[kBroadcast]);
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2002-06-11 02:06:45 +04:00
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}
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2001-10-06 18:13:28 +04:00
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}
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2002-06-11 02:06:45 +04:00
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bool
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2002-06-17 17:31:21 +04:00
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CCondVarBase::wait(CStopwatch& timer, double timeout) const
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2001-10-06 18:13:28 +04:00
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{
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// check timeout against timer
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if (timeout >= 0.0) {
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timeout -= timer.getTime();
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2002-06-11 02:06:45 +04:00
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if (timeout < 0.0) {
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2001-10-06 18:13:28 +04:00
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return false;
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2002-06-11 02:06:45 +04:00
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}
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2001-10-06 18:13:28 +04:00
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}
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// prepare to wait
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2001-11-19 03:33:36 +03:00
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CThreadPtr currentRep = CThreadRep::getCurrentThreadRep();
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2001-10-06 18:13:28 +04:00
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const DWORD winTimeout = (timeout < 0.0) ? INFINITE :
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static_cast<DWORD>(1000.0 * timeout);
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HANDLE* events = reinterpret_cast<HANDLE*>(m_cond);
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HANDLE handles[3];
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handles[0] = events[kSignal];
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handles[1] = events[kBroadcast];
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handles[2] = currentRep->getCancelEvent();
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const DWORD n = currentRep->isCancellable() ? 3 : 2;
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// update waiter count
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{
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CLock lock(&m_waitCountMutex);
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++m_waitCount;
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}
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// release mutex. this should be atomic with the wait so that it's
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// impossible for another thread to signal us between the unlock and
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// the wait, which would lead to a lost signal on broadcasts.
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// however, we're using a manual reset event for broadcasts which
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// stays set until we reset it, so we don't lose the broadcast.
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m_mutex->unlock();
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// wait for a signal or broadcast
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2001-10-26 02:17:17 +04:00
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DWORD result = WaitForMultipleObjects(n, handles, FALSE, winTimeout);
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2001-10-06 18:13:28 +04:00
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// cancel takes priority
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if (n == 3 && result != WAIT_OBJECT_0 + 2 &&
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2002-06-11 02:06:45 +04:00
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WaitForSingleObject(handles[2], 0) == WAIT_OBJECT_0) {
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2001-10-06 18:13:28 +04:00
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result = WAIT_OBJECT_0 + 2;
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2002-06-11 02:06:45 +04:00
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}
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2001-10-06 18:13:28 +04:00
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// update the waiter count and check if we're the last waiter
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bool last;
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{
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CLock lock(&m_waitCountMutex);
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--m_waitCount;
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last = (result == WAIT_OBJECT_0 + 1 && m_waitCount == 0);
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}
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// reset the broadcast event if we're the last waiter
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2002-06-11 02:06:45 +04:00
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if (last) {
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2001-10-06 18:13:28 +04:00
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ResetEvent(events[kBroadcast]);
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2002-06-11 02:06:45 +04:00
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}
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2001-10-06 18:13:28 +04:00
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// reacquire the mutex
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m_mutex->lock();
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// cancel thread if necessary
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2002-06-11 02:06:45 +04:00
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if (result == WAIT_OBJECT_0 + 2) {
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2001-10-06 18:13:28 +04:00
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currentRep->testCancel();
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2002-06-11 02:06:45 +04:00
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}
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2001-10-06 18:13:28 +04:00
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// return success or failure
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return (result == WAIT_OBJECT_0 + 0 ||
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result == WAIT_OBJECT_0 + 1);
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}
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2002-06-19 15:23:49 +04:00
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#endif // WINDOWS_LIKE
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