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阅读boost :: asio :: deadline_timer的文档后,似乎io_service :: run()和处理程序方法在同一线程上调用。在后台线程上运行io_service对象时,是否有任何方法在一个线程上创建计时器?这里非阻塞提升io_service for deadline_timers
阅读boost :: asio :: deadline_timer的文档后,似乎io_service :: run()和处理程序方法在同一线程上调用。在后台线程上运行io_service对象时,是否有任何方法在一个线程上创建计时器?这里非阻塞提升io_service for deadline_timers
的乐趣和荣耀是如何线程队列ASIO期限计时器结合起来,从期限定时器派遣非阻塞任务:
#ifndef HEADER_GUARD_CUSTOM_THREADPOOL_HPP
#define HEADER_GUARD_CUSTOM_THREADPOOL_HPP
#include <boost/function.hpp>
#include <boost/optional.hpp>
#include <boost/bind.hpp>
#include <boost/thread.hpp>
#include <boost/atomic.hpp>
#include <boost/phoenix.hpp>
#include <boost/make_shared.hpp>
#include <iostream>
#include <string>
#include <deque>
namespace custom {
using namespace boost;
class thread_pool
{
private:
mutex mx;
condition_variable cv;
typedef function<void()> job_t;
std::deque<job_t> _queue;
thread_group pool;
boost::atomic_bool shutdown;
static void worker_thread(thread_pool& q)
{
while (optional<job_t> job = q.dequeue())
(*job)();
}
public:
thread_pool() : shutdown(false) {
//LOG_INFO_MESSAGE << "Number of possible Threads: " << boost::thread::hardware_concurrency() << std::endl;
for (unsigned i = 0; i < boost::thread::hardware_concurrency(); ++i){
pool.create_thread(bind(worker_thread, ref(*this)));
}
}
void enqueue(job_t job)
{
lock_guard<mutex> lk(mx);
_queue.push_back(job);
cv.notify_one();
}
optional<job_t> dequeue()
{
unique_lock<mutex> lk(mx);
namespace phx = boost::phoenix;
cv.wait(lk, phx::ref(shutdown) || !phx::empty(phx::ref(_queue)));
if (_queue.empty())
return none;
job_t job = _queue.front();
_queue.pop_front();
return job;
}
~thread_pool()
{
shutdown = true;
{
lock_guard<mutex> lk(mx);
cv.notify_all();
}
pool.join_all();
}
};
}
#endif // HEADER_GUARD_CUSTOM_THREADPOOL_HPP
和简单测试程序:
#include <boost/asio.hpp>
namespace a = boost::asio;
using error = boost::system::error_code;
void timer_loop(a::deadline_timer& tim, custom::thread_pool& pool) {
static boost::atomic_int count(0);
tim.expires_from_now(boost::posix_time::milliseconds(10));
tim.async_wait([&](error ec) {
if (!ec && (++count < 100)) {
int id = count;
pool.enqueue([id] {
std::cout << "timer callback " << id << " started on thread " << boost::this_thread::get_id() << "\n";
boost::this_thread::sleep_for(boost::chrono::milliseconds(rand()%1000));
std::cout << "timer callback " << id << " completed\n";
});
std::cout << "Job " << id << " enqueued" << "\n";
timer_loop(tim, pool);
}
});
}
int main()
{
a::io_service svc;
a::deadline_timer tim(svc);
custom::thread_pool pool;
timer_loop(tim, pool);
svc.run();
}
你想达到什么目的?您可以根据需要使用您的服务运行尽可能多的IO线程。所以,如果你想每隔一段时间发出一个后台线程的信号,只需要提出一个条件变量或其他东西? – sehe 2014-11-03 21:16:58
谢谢你的答案。实际上,它需要使线程使回调成为非阻塞状态。在正常实现时,只要我们调用io_service :: run()方法,它就会被阻塞直到时间计时器到期。所以这两个线程都需要独立。 – 2014-11-11 14:08:36