virtual void Run()
{
now = v8::base::OS::TimeCurrentMillis();
while (1)
{
AsyncEvent *p;
std::multimap<double, AsyncEvent *>::iterator e;
wait();
now = v8::base::OS::TimeCurrentMillis();
while (1)
{
p = s_acSleep.get();
if (p == NULL)
break;
s_tms.insert(std::make_pair(now + p->result(), p));
}
while (1)
{
e = s_tms.begin();
if (e == s_tms.end())
break;
if (e->first > now)
break;
e->second->apost(0);
s_tms.erase(e);
}
}
}
static void PASCAL Timer(unsigned int uTimerID, unsigned int uMsg,
DWORD_PTR dwUser, DWORD_PTR dw1, DWORD_PTR dw2)
{
AsyncEvent *p;
double tm;
std::multimap<double, AsyncEvent *>::iterator e;
while (1)
{
p = s_acSleep.get();
if (p == NULL)
break;
tm = s_time + s_now + p->result();
s_tms.insert(std::make_pair(tm, p));
}
atom_xchg(&s_now, (int)(v8::internal::OS::TimeCurrentMillis() - s_time));
while (1)
{
e = s_tms.begin();
if (e == s_tms.end())
break;
if (e->first > s_time + s_now)
break;
e->second->apost(0);
s_tms.erase(e);
}
}
namespace exlib
{
exlib::lockfree<AsyncEvent> s_acSleep;
std::multimap<double, AsyncEvent *> s_tms;
Fiber *Fiber::Current()
{
Service *pService = Service::getFiberService();
if (pService)
return pService->m_running;
return NULL;
}
void Fiber::yield()
{
Service *pService = Service::getFiberService();
if (pService)
pService->yield();
}
void Fiber::destroy()
{
#ifdef WIN32
VirtualFree(this, 0, MEM_RELEASE);
#else
free(this);
#endif
}
static class _timerThread: public OSThread
{
public:
_timerThread()
{
start();
}
OSSemaphore m_sem;
double now;
void wait()
{
std::multimap<double, AsyncEvent *>::iterator e;
e = s_tms.begin();
if (e != s_tms.end())
m_sem.TimedWait((int32_t)(e->first - now));
else
m_sem.Wait();
}
virtual void Run()
{
now = v8::base::OS::TimeCurrentMillis();
while (1)
{
AsyncEvent *p;
std::multimap<double, AsyncEvent *>::iterator e;
wait();
now = v8::base::OS::TimeCurrentMillis();
while (1)
{
p = s_acSleep.get();
if (p == NULL)
break;
s_tms.insert(std::make_pair(now + p->result(), p));
}
while (1)
{
e = s_tms.begin();
if (e == s_tms.end())
break;
if (e->first > now)
break;
e->second->apost(0);
s_tms.erase(e);
}
}
}
static void post(AsyncEvent *p);
} s_timer;
void _timerThread::post(AsyncEvent *p)
{
s_acSleep.put(p);
s_timer.m_sem.Post();
}
void AsyncEvent::sleep(int ms)
{
m_v = ms;
_timerThread::post(this);
}
void Fiber::sleep(int ms)
{
if (Service::hasService())
{
if (ms <= 0)
yield();
else
{
AsyncEvent as;
as.sleep(ms);
as.wait();
}
}
else
OSThread::Sleep(ms);
}
}
void _timerThread::post(AsyncEvent *p)
{
s_acSleep.put(p);
s_timer.m_sem.Post();
}
namespace exlib
{
Fiber *Fiber::Current()
{
Service *pService = Service::getFiberService();
if (pService)
return pService->m_running;
return NULL;
}
void Fiber::yield()
{
Service *pService = Service::getFiberService();
if (pService)
pService->yield();
}
void Fiber::destroy()
{
free(this);
}
exlib::lockfree<AsyncEvent> s_acSleep;
std::multimap<double, AsyncEvent *> s_tms;
static double s_time;
static int s_now;
#ifndef _WIN32
#define PASCAL
#define DWORD_PTR unsigned long*
#else
static int s_nTimer;
#endif
double FastCurrentMillis()
{
return s_time + s_now;
}
static class _timerThread: public OSThread
{
public:
_timerThread()
{
time_t timer;
time(&timer);
s_time = (double)timer * 1000;
s_now = 0;
start();
}
#ifdef _WIN32
~_timerThread()
{
timeKillEvent(s_nTimer);
}
#endif
static void PASCAL Timer(unsigned int uTimerID, unsigned int uMsg,
DWORD_PTR dwUser, DWORD_PTR dw1, DWORD_PTR dw2)
{
AsyncEvent *p;
double tm;
std::multimap<double, AsyncEvent *>::iterator e;
while (1)
{
p = s_acSleep.get();
if (p == NULL)
break;
tm = s_time + s_now + p->result();
s_tms.insert(std::make_pair(tm, p));
}
atom_xchg(&s_now, (int)(v8::internal::OS::TimeCurrentMillis() - s_time));
while (1)
{
e = s_tms.begin();
if (e == s_tms.end())
break;
if (e->first > s_time + s_now)
break;
e->second->apost(0);
s_tms.erase(e);
}
}
virtual void Run()
{
#ifdef _WIN32
TIMECAPS tc;
timeGetDevCaps(&tc, sizeof(TIMECAPS));
if (tc.wPeriodMin < 1)
tc.wPeriodMin = 1;
timeBeginPeriod(tc.wPeriodMin);
s_nTimer = timeSetEvent(tc.wPeriodMin, tc.wPeriodMin, Timer, 0, TIME_PERIODIC);
MSG msg;
while (GetMessage(&msg, 0, 0, 0));
#else
while (1)
{
Sleep(1);
Timer(0, 0, NULL, NULL, NULL);
}
#endif
}
} s_timer;
void AsyncEvent::sleep(int ms)
{
m_v = ms;
s_acSleep.put(this);
}
void Fiber::sleep(int ms)
{
if (Service::hasService())
{
if (ms <= 0)
yield();
else
{
AsyncEvent as;
as.sleep(ms);
as.wait();
}
}
else
OSThread::Sleep(ms);
}
}
void AsyncEvent::sleep(int ms)
{
m_v = ms;
s_acSleep.put(this);
}
