// // AsyncTaskQueue.cpp // Clock Signal // // Created by Thomas Harte on 07/10/2016. // Copyright © 2016 Thomas Harte. All rights reserved. // #include "AsyncTaskQueue.hpp" using namespace Concurrency; AsyncTaskQueue::AsyncTaskQueue() #ifndef __APPLE__ : should_destruct_(false) #endif { #ifdef __APPLE__ serial_dispatch_queue_ = dispatch_queue_create("com.thomasharte.clocksignal.asyntaskqueue", DISPATCH_QUEUE_SERIAL); #else thread_.reset(new std::thread([this]() { while(!should_destruct_) { std::function next_function; // Take lock, check for a new task std::unique_lock lock(queue_mutex_); if(!pending_tasks_.empty()) { next_function = pending_tasks_.front(); pending_tasks_.pop_front(); } if(next_function) { // If there is a task, release lock and perform it lock.unlock(); next_function(); } else { // If there isn't a task, atomically block on the processing condition and release the lock // until there's something pending (and then release it again via scope) processing_condition_.wait(lock); } } })); #endif } AsyncTaskQueue::~AsyncTaskQueue() { #ifdef __APPLE__ dispatch_release(serial_dispatch_queue_); serial_dispatch_queue_ = nullptr; #else should_destruct_ = true; enqueue([](){}); thread_->join(); thread_.reset(); #endif } void AsyncTaskQueue::enqueue(std::function function) { #ifdef __APPLE__ dispatch_async(serial_dispatch_queue_, ^{function();}); #else std::lock_guard lock(queue_mutex_); pending_tasks_.push_back(function); processing_condition_.notify_all(); #endif } void AsyncTaskQueue::flush() { #ifdef __APPLE__ dispatch_sync(serial_dispatch_queue_, ^{}); #else std::shared_ptr flush_mutex(new std::mutex); std::shared_ptr flush_condition(new std::condition_variable); std::unique_lock lock(*flush_mutex); enqueue([=] () { std::unique_lock inner_lock(*flush_mutex); flush_condition->notify_all(); }); flush_condition->wait(lock); #endif }