I've been thinking about
std::async and how one should use it in future compiler implementation. However, right now I'm a bit stuck with something that feels like a design flaw.
std::async is pretty much implementation dependent, with probably two variants of
launch::async, one which launches the task into a new thread and one that uses a thread-pool/task-scheduler.
However, depending one which one of these variants that are used to implement
std::async, the usage would vary greatly.
For the "thread-pool" based variant you would be able to launch a lot of small tasks without worrying much about overheads, however, what if one of the tasks blocks at some point?
On the other hand a "launch new thread" variant wouldn't suffer problems with blocking tasks, on the other hand, the overhead of launching and executing tasks would be very high.
thread-pool: +low-overhead, -never ever block
launch new thread: +fine with blocks, -high overhead
So basically depending on the implementation, the way we use
std::async would wary very much. If we have a program that works well with one compiler, it might work horribly on another.
Is this by design? Or am I missing something? Would you consider this, as I do, as a big problem?
In the current specification I am missing something like
std::oversubscribe(bool) in order to enable implementation in-dependent usage of
EDIT: As far as I have read, the C++11 standard document does not give any hints in regards to whether tasks sent to
std::async may block or not.