Kerrek SB is correct with his answer, but I suggested to add another example (which he suggested should be an answer, so here it is).
I discovered recently that at least in VC11,
std::async will not release all the resources of the thread until the end of the application, making possible to get memory leak false positive (if you are monitoring them using, for example Visual Leak Detector).
Here I mean that in most basic applications it is not worth looking at the rest of this answer, but if like me you need to check memory leaks and can't afford to let false positive, like static data not released at the end of the main function. If it's your case, then this might help.
std::async is not guaranteed to run in a separate thread by default, it is only if you use
std::launch::async as first parameter. Otherwise the implementation decide what to do, and that's why VC11 implementation will use the new Microsoft Concurrency Runtime task manager to manage the provided function as a task pushed in a task pool, which mean threads are maintained and managed in a transparent way. There are ways to explicitely terminate the task manager but that's too platform specific, making async a poor choice when you want exactly 1) be sure to launch a thread and 2) get a result later and 3) be sure the thread is fully released when you get the result.
The alternative that does exactly that is to use
std::thread in combination with
std::future. The way it is done is almost similar to using
std::async, just a bit more verbose (which mean you can generalize it in a custom template function if you want).
int myfun(double, char, bool);
std::packaged_task<int(double, char, bool)> task(myfun, arg1, arg2, arg3);
auto f = task.get_future(); // f is a std::future<int>
First we create a task, basically an object containing both the function and the
std::promise that will be associated with the future.
std::packaged_task works mostly like an augmented version of
Now we need to execute the thread explicitly:
The move is necessary because
std::packaged_task is not copyable. Detaching the thread is only necessary if you only want to synchronize using the future – otherwise you will need to join the thread explicitly. If you don't, when thread's destructor is called, it will just call
int res = f.get(); // Synchronization and retrieval.