dolphin/Source/Core/Common/WorkQueueThread.h

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// Copyright 2017 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
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#pragma once
#include <atomic>
#include <condition_variable>
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#include <functional>
#include <queue>
#include <string>
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#include <string_view>
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#include <thread>
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#include "Common/Thread.h"
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// A thread that executes the given function for every item placed into its queue.
namespace Common
{
template <typename T>
class WorkQueueThread
{
public:
WorkQueueThread() = default;
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WorkQueueThread(const std::string_view name, std::function<void(T)> function)
{
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Reset(name, std::move(function));
}
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~WorkQueueThread() { Shutdown(); }
// Shuts the current work thread down (if any) and starts a new thread with the given function
// Note: Some consumers of this API push items to the queue before starting the thread.
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void Reset(const std::string_view name, std::function<void(T)> function)
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{
Shutdown();
std::lock_guard lg(m_lock);
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m_thread_name = name;
m_shutdown = false;
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m_function = std::move(function);
m_thread = std::thread(&WorkQueueThread::ThreadLoop, this);
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}
// Adds an item to the work queue
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template <typename... Args>
void EmplaceItem(Args&&... args)
{
std::lock_guard lg(m_lock);
if (m_shutdown)
return;
m_items.emplace(std::forward<Args>(args)...);
m_idle = false;
m_worker_cond_var.notify_one();
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}
// Adds an item to the work queue
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void Push(T&& item)
{
std::lock_guard lg(m_lock);
if (m_shutdown)
return;
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m_items.push(std::move(item));
m_idle = false;
m_worker_cond_var.notify_one();
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}
// Adds an item to the work queue
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void Push(const T& item)
{
std::lock_guard lg(m_lock);
if (m_shutdown)
return;
m_items.push(item);
m_idle = false;
m_worker_cond_var.notify_one();
}
// Empties the queue
// If the worker polls IsCanceling(), it can abort it's work when Cancelling
void Cancel()
{
std::unique_lock lg(m_lock);
if (m_shutdown)
return;
m_cancelling = true;
m_items = std::queue<T>();
m_worker_cond_var.notify_one();
}
// Tells the worker to shut down when it's queue is empty
// Blocks until the worker thread exits.
// If cancel is true, will Cancel before before telling the worker to exit
// Otherwise, all currently queued items will complete before the worker exits
void Shutdown(bool cancel = false)
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{
{
std::unique_lock lg(m_lock);
if (m_shutdown || !m_thread.joinable())
return;
if (cancel)
{
m_cancelling = true;
m_items = std::queue<T>();
}
m_shutdown = true;
m_worker_cond_var.notify_one();
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}
m_thread.join();
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}
// Blocks until all items in the queue have been processed (or cancelled)
void WaitForCompletion()
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{
std::unique_lock lg(m_lock);
// don't check m_shutdown, because it gets set to request a shutdown, and we want to wait until
// after the shutdown completes.
// We also check m_cancelling, because we want to ensure the worker acknowledges our cancel.
if (m_idle && !m_cancelling.load())
return;
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m_wait_cond_var.wait(lg, [&] { return m_idle && !m_cancelling; });
}
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// If the worker polls IsCanceling(), it can abort its work when Cancelling
bool IsCancelling() const { return m_cancelling.load(); }
private:
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void ThreadLoop()
{
Common::SetCurrentThreadName(m_thread_name.c_str());
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while (true)
{
std::unique_lock lg(m_lock);
while (m_items.empty())
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{
m_idle = true;
m_cancelling = false;
m_wait_cond_var.notify_all();
if (m_shutdown)
return;
m_worker_cond_var.wait(
lg, [&] { return !m_items.empty() || m_shutdown || m_cancelling.load(); });
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}
T item{std::move(m_items.front())};
m_items.pop();
lg.unlock();
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m_function(std::move(item));
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}
}
std::function<void(T)> m_function;
std::string m_thread_name;
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std::thread m_thread;
std::mutex m_lock;
std::queue<T> m_items;
std::condition_variable m_wait_cond_var;
std::condition_variable m_worker_cond_var;
std::atomic<bool> m_cancelling = false;
bool m_idle = true;
bool m_shutdown = false;
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};
} // namespace Common