Defined in header <future> | ||
---|---|---|
template< class T > class future; | (1) | (since C++11) |
template< class T > class future<T&>; | (2) | (since C++11) |
template<> class future<void>; | (3) | (since C++11) |
The class template std::future
provides a mechanism to access the result of asynchronous operations:
std::async
, std::packaged_task
, or std::promise
) can provide a std::future
object to the creator of that asynchronous operation. std::future
. These methods may block if the asynchronous operation has not yet provided a value. std::promise::set_value
) that is linked to the creator's std::future
. Note that std::future
references shared state that is not shared with any other asynchronous return objects (as opposed to std::shared_future
).
constructs the future object (public member function) |
|
destructs the future object (public member function) |
|
moves the future object (public member function) |
|
transfers the shared state from *this to a shared_future and returns it (public member function) |
|
Getting the result |
|
returns the result (public member function) |
|
State |
|
checks if the future has a shared state (public member function) |
|
waits for the result to become available (public member function) |
|
waits for the result, returns if it is not available for the specified timeout duration (public member function) |
|
waits for the result, returns if it is not available until specified time point has been reached (public member function) |
#include <iostream> #include <future> #include <thread> int main() { // future from a packaged_task std::packaged_task<int()> task([]{ return 7; }); // wrap the function std::future<int> f1 = task.get_future(); // get a future std::thread t(std::move(task)); // launch on a thread // future from an async() std::future<int> f2 = std::async(std::launch::async, []{ return 8; }); // future from a promise std::promise<int> p; std::future<int> f3 = p.get_future(); std::thread( [&p]{ p.set_value_at_thread_exit(9); }).detach(); std::cout << "Waiting..." << std::flush; f1.wait(); f2.wait(); f3.wait(); std::cout << "Done!\nResults are: " << f1.get() << ' ' << f2.get() << ' ' << f3.get() << '\n'; t.join(); }
Output:
Waiting...Done! Results are: 7 8 9
#include <thread> #include <iostream> #include <future> int main() { std::promise<int> p; std::future<int> f = p.get_future(); std::thread t([&p]{ try { // code that may throw throw std::runtime_error("Example"); } catch(...) { try { // store anything thrown in the promise p.set_exception(std::current_exception()); } catch(...) {} // set_exception() may throw too } }); try { std::cout << f.get(); } catch(const std::exception& e) { std::cout << "Exception from the thread: " << e.what() << '\n'; } t.join(); }
Output:
Exception from the thread: Example
(C++11) | runs a function asynchronously (potentially in a new thread) and returns a std::future that will hold the result (function template) |
(C++11) | waits for a value (possibly referenced by other futures) that is set asynchronously (class template) |
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