#include #include #include #include #if defined(OS_WINDOWS) #include #include #else #include #endif namespace hex { namespace { std::mutex s_deferredCallsMutex, s_tasksFinishedMutex; std::list> s_tasks, s_taskQueue; std::list s_timers; std::list> s_deferredCalls; std::list> s_tasksFinishedCallbacks; std::mutex s_queueMutex; std::condition_variable s_jobCondVar; std::vector s_workers; } static void setThreadName(const std::string &name) { #if defined(OS_WINDOWS) typedef struct tagTHREADNAME_INFO { DWORD dwType; LPCSTR szName; DWORD dwThreadID; DWORD dwFlags; } THREADNAME_INFO; THREADNAME_INFO info; info.dwType = 0x1000; info.szName = name.c_str(); info.dwThreadID = ::GetCurrentThreadId(); info.dwFlags = 0; constexpr static DWORD MS_VC_EXCEPTION = 0x406D1388; RaiseException(MS_VC_EXCEPTION, 0, sizeof(info) / sizeof(ULONG_PTR), reinterpret_cast(&info)); #elif defined(OS_LINUX) pthread_setname_np(pthread_self(), name.c_str()); #elif defined(OS_WEB) hex::unused(name); #elif defined(OS_MACOS) pthread_setname_np(name.c_str()); #endif } Task::Task(std::string unlocalizedName, u64 maxValue, bool background, std::function function) : m_unlocalizedName(std::move(unlocalizedName)), m_maxValue(maxValue), m_function(std::move(function)), m_background(background) { } Task::Task(hex::Task &&other) noexcept { { std::scoped_lock thisLock(this->m_mutex); std::scoped_lock otherLock(other.m_mutex); this->m_function = std::move(other.m_function); this->m_unlocalizedName = std::move(other.m_unlocalizedName); } this->m_maxValue = u64(other.m_maxValue); this->m_currValue = u64(other.m_currValue); this->m_finished = bool(other.m_finished); this->m_hadException = bool(other.m_hadException); this->m_interrupted = bool(other.m_interrupted); this->m_shouldInterrupt = bool(other.m_shouldInterrupt); } Task::~Task() { if (!this->isFinished()) this->interrupt(); } void Task::update(u64 value) { this->m_currValue = value; if (this->m_shouldInterrupt) [[unlikely]] throw TaskInterruptor(); } void Task::setMaxValue(u64 value) { this->m_maxValue = value; } void Task::interrupt() { this->m_shouldInterrupt = true; if (this->m_interruptCallback) this->m_interruptCallback(); } void Task::setInterruptCallback(std::function callback) { this->m_interruptCallback = std::move(callback); } bool Task::isBackgroundTask() const { return this->m_background; } bool Task::isFinished() const { return this->m_finished; } bool Task::hadException() const { return this->m_hadException; } bool Task::shouldInterrupt() const { return this->m_shouldInterrupt; } bool Task::wasInterrupted() const { return this->m_interrupted; } void Task::clearException() { this->m_hadException = false; } std::string Task::getExceptionMessage() const { std::scoped_lock lock(this->m_mutex); return this->m_exceptionMessage; } const std::string &Task::getUnlocalizedName() { return this->m_unlocalizedName; } u64 Task::getValue() const { return this->m_currValue; } u64 Task::getMaxValue() const { return this->m_maxValue; } void Task::finish() { this->m_finished = true; } void Task::interruption() { this->m_interrupted = true; } void Task::exception(const char *message) { std::scoped_lock lock(this->m_mutex); this->m_exceptionMessage = message; this->m_hadException = true; } bool TaskHolder::isRunning() const { if (this->m_task.expired()) return false; auto task = this->m_task.lock(); return !task->isFinished(); } bool TaskHolder::hadException() const { if (this->m_task.expired()) return false; auto task = this->m_task.lock(); return !task->hadException(); } bool TaskHolder::shouldInterrupt() const { if (this->m_task.expired()) return false; auto task = this->m_task.lock(); return !task->shouldInterrupt(); } bool TaskHolder::wasInterrupted() const { if (this->m_task.expired()) return false; auto task = this->m_task.lock(); return !task->wasInterrupted(); } void TaskHolder::interrupt() const { if (this->m_task.expired()) return; auto task = this->m_task.lock(); task->interrupt(); } u32 TaskHolder::getProgress() const { if (this->m_task.expired()) return 0; auto task = this->m_task.lock(); return u32((task->getValue() * 100) / task->getMaxValue()); } void TaskManager::init() { const auto threadCount = std::thread::hardware_concurrency(); log::debug("Initializing task manager thread pool with {} workers.", threadCount); for (u32 i = 0; i < threadCount; i++) s_workers.emplace_back(TaskManager::runner); } void TaskManager::exit() { for (auto &task : s_tasks) task->interrupt(); for (auto &thread : s_workers) thread.request_stop(); s_jobCondVar.notify_all(); s_workers.clear(); } void TaskManager::runner(const std::stop_token &stopToken) { while (true) { std::shared_ptr task; { std::unique_lock lock(s_queueMutex); s_jobCondVar.wait(lock, [&] { return !s_taskQueue.empty() || stopToken.stop_requested(); }); if (stopToken.stop_requested()) break; task = std::move(s_taskQueue.front()); s_taskQueue.pop_front(); } try { setThreadName(LangEntry(task->m_unlocalizedName)); task->m_function(*task); setThreadName("Idle Task"); log::debug("Finished task {}", task->m_unlocalizedName); } catch (const Task::TaskInterruptor &) { task->interruption(); } catch (const std::exception &e) { log::error("Exception in task {}: {}", task->m_unlocalizedName, e.what()); task->exception(e.what()); } catch (...) { log::error("Exception in task {}", task->m_unlocalizedName); task->exception("Unknown Exception"); } task->finish(); } } TaskHolder TaskManager::createTask(std::string name, u64 maxValue, std::function function) { log::debug("Creating task {}", name); std::unique_lock lock(s_queueMutex); auto task = std::make_shared(std::move(name), maxValue, false, std::move(function)); s_tasks.emplace_back(task); s_taskQueue.emplace_back(task); s_jobCondVar.notify_one(); return TaskHolder(s_tasks.back()); } TaskHolder TaskManager::createBackgroundTask(std::string name, std::function function) { log::debug("Creating background task {}", name); std::unique_lock lock(s_queueMutex); auto task = std::make_shared(std::move(name), 0, true, std::move(function)); s_tasks.emplace_back(task); s_taskQueue.emplace_back(task); s_jobCondVar.notify_one(); return TaskHolder(s_tasks.back()); } void TaskManager::collectGarbage() { { std::unique_lock lock1(s_queueMutex); std::erase_if(s_tasks, [](const auto &task) { return task->isFinished() && !task->hadException(); }); } if (s_tasks.empty()) { std::unique_lock lock2(s_deferredCallsMutex); for (auto &call : s_tasksFinishedCallbacks) call(); s_tasksFinishedCallbacks.clear(); } } std::list> &TaskManager::getRunningTasks() { return s_tasks; } std::list &TaskManager::getTimers() { return s_timers; } size_t TaskManager::getRunningTaskCount() { std::unique_lock lock(s_queueMutex); return std::count_if(s_tasks.begin(), s_tasks.end(), [](const auto &task){ return !task->isBackgroundTask(); }); } size_t TaskManager::getRunningBackgroundTaskCount() { std::unique_lock lock(s_queueMutex); return std::count_if(s_tasks.begin(), s_tasks.end(), [](const auto &task){ return task->isBackgroundTask(); }); } void TaskManager::doLater(const std::function &function) { std::scoped_lock lock(s_deferredCallsMutex); s_deferredCalls.push_back(function); } void TaskManager::runDeferredCalls() { std::scoped_lock lock(s_deferredCallsMutex); for (const auto &call : s_deferredCalls) call(); s_deferredCalls.clear(); for (const auto &timer : s_timers) { if (timer.elapseTime >= std::chrono::steady_clock::now()) { timer.callback(); } } } void TaskManager::runWhenTasksFinished(const std::function &function) { std::scoped_lock lock(s_tasksFinishedMutex); s_tasksFinishedCallbacks.push_back(function); } void TaskManager::doAfter(std::chrono::duration duration, const std::function &function) { s_timers.push_back({ std::chrono::steady_clock::now() + duration, function }); } }