// Copyright (c) 2013- PPSSPP Project. // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, version 2.0 or later versions. // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License 2.0 for more details. // A copy of the GPL 2.0 should have been included with the program. // If not, see http://www.gnu.org/licenses/ // Official git repository and contact information can be found at // https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/. #pragma once #include #include #include #include "Core/System.h" #include "Core/CoreTiming.h" template struct ThreadEventQueue : public B { ThreadEventQueue() : threadEnabled_(false), eventsRunning_(false), eventsHaveRun_(false) { } void SetThreadEnabled(bool threadEnabled) { threadEnabled_ = threadEnabled; } bool ThreadEnabled() { return threadEnabled_; } void ScheduleEvent(Event ev) { if (threadEnabled_) { std::lock_guard guard(eventsLock_); events_.push_back(ev); eventsWait_.notify_one(); } else { events_.push_back(ev); } if (!threadEnabled_) { RunEventsUntil(0); } } bool HasEvents() { if (threadEnabled_) { std::lock_guard guard(eventsLock_); return !events_.empty(); } else { return !events_.empty(); } } void NotifyDrain() { if (threadEnabled_) { std::lock_guard guard(eventsLock_); eventsDrain_.notify_one(); } } Event GetNextEvent() { if (threadEnabled_) { std::lock_guard guard(eventsLock_); if (events_.empty()) { NotifyDrain(); return EVENT_INVALID; } Event ev = events_.front(); events_.pop_front(); return ev; } else { if (events_.empty()) { return EVENT_INVALID; } Event ev = events_.front(); events_.pop_front(); return ev; } } void RunEventsUntil(u64 globalticks) { if (!threadEnabled_) { do { for (Event ev = GetNextEvent(); EventType(ev) != EVENT_INVALID; ev = GetNextEvent()) { ProcessEventIfApplicable(ev, globalticks); } } while (CoreTiming::GetTicks() < globalticks); return; } std::unique_lock guard(eventsLock_); eventsRunning_ = true; eventsHaveRun_ = true; do { while (events_.empty() && !ShouldExitEventLoop()) { eventsWait_.wait(guard); } // Quit the loop if the queue is drained and coreState has tripped, or threading is disabled. if (events_.empty()) { break; } for (Event ev = GetNextEvent(); EventType(ev) != EVENT_INVALID; ev = GetNextEvent()) { guard.unlock(); ProcessEventIfApplicable(ev, globalticks); guard.lock(); } } while (CoreTiming::GetTicks() < globalticks); // This will force the waiter to check coreState, even if we didn't actually drain. NotifyDrain(); eventsRunning_ = false; } void SyncBeginFrame() { if (threadEnabled_) { std::lock_guard guard(eventsLock_); eventsHaveRun_ = false; } else { eventsHaveRun_ = false; } } inline bool ShouldSyncThread(bool force) { if (!HasEvents()) return false; if (coreState != CORE_RUNNING && !force) return false; // Don't run if it's not running, but wait for startup. if (!eventsRunning_) { if (eventsHaveRun_ || coreState == CORE_BOOT_ERROR || coreState == CORE_RUNTIME_ERROR || coreState == CORE_POWERDOWN) { return false; } } return true; } // Force ignores coreState. void SyncThread(bool force = false) { if (!threadEnabled_) { return; } std::unique_lock guard(eventsLock_); // While processing the last event, HasEvents() will be false even while not done. // So we schedule a nothing event and wait for that to finish. ScheduleEvent(EVENT_SYNC); while (ShouldSyncThread(force)) { eventsDrain_.wait(guard); } } void FinishEventLoop() { if (!threadEnabled_) { return; } std::lock_guard guard(eventsLock_); // Don't schedule a finish if it's not even running. if (eventsRunning_) { ScheduleEvent(EVENT_FINISH); } } protected: virtual void ProcessEvent(Event ev) = 0; virtual bool ShouldExitEventLoop() = 0; inline void ProcessEventIfApplicable(Event &ev, u64 &globalticks) { switch (EventType(ev)) { case EVENT_FINISH: // Stop waiting. globalticks = 0; break; case EVENT_SYNC: // Nothing special to do, this event it just to wait on, see SyncThread. break; default: ProcessEvent(ev); } } private: bool threadEnabled_; bool eventsRunning_; bool eventsHaveRun_; std::deque events_; std::recursive_mutex eventsLock_; // TODO: Should really make this non-recursive - condition_variable_any is dangerous std::condition_variable_any eventsWait_; std::condition_variable_any eventsDrain_; };