Consider following code:
template <typename func_t, typename ... Args>
auto waiter (func_t func, const Args &... args) -> decltype(func(args...)) {
const static std::chrono::milliseconds max_time(10);
auto task = std::packaged_task<decltype(func(args...))()>(std::bind(func, args...));
auto handle = task.get_future();
std::thread th(std::move(task)); // here
if (handle.wait_for(max_time) == std::future_status::timeout) {
th.detach(); // and here
throw std::runtime_error("timeout");
} else { // and here
th.detach();
return handle.get();
}
}
Can I safely take inner std::thread
from std::future
and detach it? I guess it's obvious UB. waiter()
function is designed to take any callable object, call it and stop work if any of
- timeout reached
- function stop it's work and return result
is true. I tried to do this in many ways, but there is always a problem. I realized that the problem is C++14 don't have process support. First attempt:
template <typename func_t, typename ... Args>
auto waiter (func_t func, const Args &... args) -> decltype(func(args...)) {
const static std::chrono::milliseconds max_time(10);
decltype(func(args...)) result;
std::mutex mtx;
std::unique_lock<std::mutex> lock(mtx);
std::condition_variable cv;
thread th([&] {
result = func(args...);
cv.notify_all();
});
auto waiting_result = cv.wait_for(lock, max_time);
th.detach();
if (waiting_result == std::cv_status::timeout) {
throw std::runtime_error("timeout");
}
return result;
}
The problem here is after throwing exception, std::thread
th
is still running with killed references. Second attempt:
template <typename func_t, typename ... Args>
auto waiter (func_t func, const Args &... args) -> decltype(func(args...)) {
const static std::chrono::milliseconds max_time(10);
auto handle = std::async(std::launch::async, func, args ...);
if (handle.wait_for(max_time) == std::future_status::timeout) {
throw std::runtime_error("timeout");
} else {
return handle.get();
}
}
Here the problem is (as far I understand) that std::async::~async()
calls some kind of std::thread::join()
on it's inner thread and the main thread is still waiting for std::async
. http://melpon.org/wandbox/permlink/Cyd2hYJCQSIxETqL
Silly one.