C++ library for asynchronous and event-driven execution
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asynco/lib/asynco.hpp

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#ifndef _ASYNCO_
#define _ASYNCO_
#include <boost/asio.hpp>
#include <iostream>
using namespace std;
namespace marcelb {
namespace asynco {
#define HW_CONCURRENCY_MINIMAL 4
/**
* Internal anonymous class for initializing the ASIO context and thread pool
* !!! It is anonymous to protect against use in the initialization of other objects of the same type !!!
*/
class {
public:
boost::asio::io_context io_context;
void run() {
for (auto& runner : runners) {
runner.join();
}
}
private:
unique_ptr<boost::asio::io_service::work> work { [&] () {
return new boost::asio::io_service::work(io_context);
} ()};
vector<thread> runners { [&] () {
vector<thread> _runs;
unsigned int num_of_runners;
#ifdef NUM_OF_RUNNERS
num_of_runners = NUM_OF_RUNNERS;
#else
num_of_runners = thread::hardware_concurrency();
if (num_of_runners < HW_CONCURRENCY_MINIMAL) {
num_of_runners = HW_CONCURRENCY_MINIMAL;
}
#endif
for (int i=0; i<num_of_runners; i++) {
_runs.push_back(thread ( [this] () {
io_context.run();
}));
}
return _runs;
} ()};
} _asynco_engine;
/**
* Run the function asynchronously
*/
template<class F, class... Args>
auto atask(F&& f, Args&&... args) -> future<typename result_of<F(Args...)>::type> {
using return_type = typename result_of<F(Args...)>::type;
future<return_type> res = _asynco_engine.io_context.post(boost::asio::use_future(bind(forward<F>(f), forward<Args>(args)...)));
return res;
}
/**
* Block until the asynchronous call completes
*/
template<typename T>
T wait(future<T>& r) {
return r.get();
}
/**
* Block until the asynchronous call completes
*/
template<typename T>
T wait(future<T>&& r) {
return move(r).get();
}
}
}
#endif