The idea is to be able to replace multithreaded code with boost::asio and a thread pool, on a consumer/producer problem. Currently, each consumer thread waits on a boost::condition_variable
- when a producer adds something to the queue, it calls notify_one
/notify_all
to notify all the consumers. Now what happens when you (potentially) have 1k+ consumers? Threads won't scale!
I decided to use boost::asio
, but then I ran into the fact that it doesn't have condition variables. And then async_condition_variable
was born:
class async_condition_variable
{
private:
boost::asio::io_service& service_;
typedef boost::function<void ()> async_handler;
std::queue<async_handler> waiters_;
public:
async_condition_variable(boost::asio::io_service& service) : service_(service)
{
}
void async_wait(async_handler handler)
{
waiters_.push(handler);
}
void notify_one()
{
service_.post(waiters_.front());
waiters_.pop();
}
void notify_all()
{
while (!waiters_.empty()) {
notify_one();
}
}
};
Basically, each consumer would call async_condition_variable::wait(...)
. Then, a producer would eventually call async_condition_variable::notify_one()
or async_condition_variable::notify_all()
. Each consumer's handle would be called, and would either act on the condition or call async_condition_variable::wait(...)
again. Is this feasible or am I being crazy here? What kind of locking (mutexes) should be performed, given the fact that this would be run on a thread pool?
P.S.: Yes, this is more a RFC (Request for Comments) than a question :).