2015-05-27 12:53:09 -06:00
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// Copyright 2015 Dolphin Emulator Project
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// Licensed under GPLv2+
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// Refer to the license.txt file included.
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#pragma once
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#include <atomic>
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#include <mutex>
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#include <thread>
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#include "Common/Event.h"
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#include "Common/Flag.h"
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namespace Common
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{
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// This class provides a synchronized loop.
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// It's a thread-safe way to trigger a new iteration without busy loops.
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// It's optimized for high-usage iterations which usually are already running while it's triggered
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// often.
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// Be careful when using Wait() and Wakeup() at the same time. Wait() may block forever while
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// Wakeup() is called regularly.
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2015-05-27 12:53:09 -06:00
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class BlockingLoop
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{
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public:
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enum StopMode
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{
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kNonBlock,
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kBlock,
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kBlockAndGiveUp,
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};
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BlockingLoop() { m_stopped.Set(); }
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~BlockingLoop() { Stop(kBlockAndGiveUp); }
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// Triggers to rerun the payload of the Run() function at least once again.
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// This function will never block and is designed to finish as fast as possible.
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void Wakeup()
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{
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// Already running, so no need for a wakeup.
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// This is the common case, so try to get this as fast as possible.
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if (m_running_state.load() >= STATE_NEED_EXECUTION)
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return;
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// Mark that new data is available. If the old state will rerun the payload
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// itself, we don't have to set the event to interrupt the worker.
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if (m_running_state.exchange(STATE_NEED_EXECUTION) != STATE_SLEEPING)
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return;
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// Else as the worker thread may sleep now, we have to set the event.
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2015-05-27 12:53:09 -06:00
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m_new_work_event.Set();
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}
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// Wait for a complete payload run after the last Wakeup() call.
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// If stopped, this returns immediately.
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void Wait()
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{
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// already done
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if (IsDone())
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return;
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// notifying this event will only wake up one thread, so use a mutex here to
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// allow only one waiting thread. And in this way, we get an event free wakeup
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// but for the first thread for free
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std::lock_guard<std::mutex> lk(m_wait_lock);
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// Wait for the worker thread to finish.
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while (!IsDone())
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{
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m_done_event.Wait();
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}
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// As we wanted to wait for the other thread, there is likely no work remaining.
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// So there is no need for a busy loop any more.
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m_may_sleep.Set();
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}
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// Wait for a complete payload run after the last Wakeup() call.
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// This version will call a yield function every 100ms.
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// If stopped, this returns immediately.
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template <class Rep, class Period, typename Functor>
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void WaitYield(const std::chrono::duration<Rep, Period>& rel_time, Functor yield_func)
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{
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// already done
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if (IsDone())
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return;
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// notifying this event will only wake up one thread, so use a mutex here to
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// allow only one waiting thread. And in this way, we get an event free wakeup
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// but for the first thread for free
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std::lock_guard<std::mutex> lk(m_wait_lock);
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// Wait for the worker thread to finish.
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while (!IsDone())
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{
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if (!m_done_event.WaitFor(rel_time))
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yield_func();
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}
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// As we wanted to wait for the other thread, there is likely no work remaining.
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// So there is no need for a busy loop any more.
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m_may_sleep.Set();
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}
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// Half start the worker.
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// So this object is in a running state and Wait() will block until the worker calls Run().
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// This may be called from any thread and is supposed to be called at least once before Wait() is
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// used.
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void Prepare()
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{
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// There is a race condition if the other threads call this function while
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// the loop thread is initializing. Using this lock will ensure a valid state.
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std::lock_guard<std::mutex> lk(m_prepare_lock);
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if (!m_stopped.TestAndClear())
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return;
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2015-05-29 18:42:32 -06:00
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m_running_state.store(
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STATE_LAST_EXECUTION); // so the payload will only be executed once without any Wakeup call
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m_shutdown.Clear();
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m_may_sleep.Set();
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}
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// Main loop of this object.
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// The payload callback is called at least as often as it's needed to match the Wakeup()
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// requirements.
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// The optional timeout parameter is a timeout for how periodically the payload should be called.
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// Use timeout = 0 to run without a timeout at all.
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template <class F>
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void Run(F payload, int64_t timeout = 0)
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{
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// Asserts that Prepare is called at least once before we enter the loop.
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// But a good implementation should call this before already.
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Prepare();
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2015-05-27 12:53:09 -06:00
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while (!m_shutdown.IsSet())
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{
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payload();
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switch (m_running_state.load())
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{
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case STATE_NEED_EXECUTION:
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// We won't get notified while we are in the STATE_NEED_EXECUTION state, so maybe Wakeup was
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// called.
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// So we have to assume on finishing the STATE_NEED_EXECUTION state, that there may be some
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// remaining tasks.
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// To process this tasks, we call the payload again within the STATE_LAST_EXECUTION state.
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m_running_state--;
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break;
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case STATE_LAST_EXECUTION:
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// If we're still in the STATE_LAST_EXECUTION state, then Wakeup wasn't called within the
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// last
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// execution of the payload. This means we should be ready now.
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// But bad luck, Wakeup may have been called right now. So break and rerun the payload
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// if the state was touched.
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if (m_running_state-- != STATE_LAST_EXECUTION)
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break;
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2015-05-29 18:42:32 -06:00
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// Else we're likely in the STATE_DONE state now, so wakeup the waiting threads right now.
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// However, if we're not in the STATE_DONE state any more, the event should also be
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// triggered so that we'll skip the next waiting call quite fast.
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m_done_event.Set();
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case STATE_DONE:
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// We're done now. So time to check if we want to sleep or if we want to stay in a busy
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// loop.
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if (m_may_sleep.TestAndClear())
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{
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// Try to set the sleeping state.
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if (m_running_state-- != STATE_DONE)
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break;
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}
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else
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{
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// Busy loop.
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break;
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}
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2015-05-29 18:42:32 -06:00
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case STATE_SLEEPING:
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// Just relax
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if (timeout > 0)
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{
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m_new_work_event.WaitFor(std::chrono::milliseconds(timeout));
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}
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else
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{
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m_new_work_event.Wait();
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}
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break;
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}
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}
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2015-05-29 18:42:32 -06:00
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// Shutdown down, so get a safe state
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m_running_state.store(STATE_DONE);
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m_stopped.Set();
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2015-05-29 18:42:32 -06:00
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// Wake up the last Wait calls.
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m_done_event.Set();
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}
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// Quits the main loop.
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// By default, it will wait until the main loop quits.
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// Be careful to not use the blocking way within the payload of the Run() method.
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void Stop(StopMode mode = kBlock)
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{
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if (m_stopped.IsSet())
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return;
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2015-05-29 18:42:32 -06:00
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m_shutdown.Set();
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2015-05-27 12:53:09 -06:00
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// We have to interrupt the sleeping call to let the worker shut down soon.
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Wakeup();
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2017-06-22 06:42:14 -06:00
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switch (mode)
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{
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case kNonBlock:
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break;
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case kBlock:
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Wait();
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break;
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case kBlockAndGiveUp:
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WaitYield(std::chrono::milliseconds(100), [&] {
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// If timed out, assume no one will come along to call Run, so force a break
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m_stopped.Set();
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});
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break;
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}
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}
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bool IsRunning() const { return !m_stopped.IsSet() && !m_shutdown.IsSet(); }
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bool IsDone() const { return m_stopped.IsSet() || m_running_state.load() <= STATE_DONE; }
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// This function should be triggered regularly over time so
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// that we will fall back from the busy loop to sleeping.
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void AllowSleep() { m_may_sleep.Set(); }
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private:
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std::mutex m_wait_lock;
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std::mutex m_prepare_lock;
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Flag m_stopped; // If this is set, Wait() shall not block.
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Flag m_shutdown; // If this is set, the loop shall end.
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Event m_new_work_event;
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Event m_done_event;
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enum RUNNING_TYPE
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{
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STATE_SLEEPING = 0,
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STATE_DONE = 1,
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STATE_LAST_EXECUTION = 2,
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STATE_NEED_EXECUTION = 3
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};
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std::atomic<int> m_running_state; // must be of type RUNNING_TYPE
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2015-06-05 11:28:11 -06:00
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Flag m_may_sleep; // If this is set, we fall back from the busy loop to an event based
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// synchronization.
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};
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2019-05-05 17:48:12 -06:00
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} // namespace Common
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