Is there a way to check if std::future state is ready in a guaranteed wait-free manner?

江枫思渺然 提交于 2020-01-24 04:45:23

问题


I know that I can check the state of the std::future the following way:

my_future.wait_for(std::chrono::seconds(0)) == std::future_status::ready

But according to cppreference.com std::future::wait_for may block in some cases:

This function may block for longer than timeout_duration due to scheduling or resource contention delays.

Is it still the case when timeout_duration is 0 ? If so, is there another way to query the state in a guaranteed wait-free manner ?


回答1:


The quote from cppreference is simply there to remind you that the OS scheduler is a factor here and that other tasks requiring platform resources could be using the CPU-time your thread needs in order to return from wait_for() -- regardless of the specified timeout duration being zero or not. That's all. You cannot technically be guaranteed to get more than that on a non-realtime platform. As such, the C++ Standard says nothing about this, but you can see other interesting stuff there -- see the paragraph for wait_for() under [futures.unique_future¶21]:

Effects: None if the shared state contains a deferred function ([futures.async]), otherwise blocks until the shared state is ready or until the relative timeout ([thread.req.timing]) specified by rel_­time has expired.

No such mention of the additional delay here, but it does say that you are blocked, and it remains implementation dependent whether wait_for() is yield()ing the thread1 first thing upon such blocking or immediately returning if the timeout duration is zero. In addition, it might also be necessary for an implementation to synchronize access to the future's status in a locking manner, which would have to be applied prior to checking if a potential immediate return is to take place. Hence, you don't even have the guarantee for lock-freedom here, let alone wait-freedom.

Note that the same applies for calling wait_until with a time in the past.

Is it still the case when timeout_duration is 0 ? If so, is there another way to query the state in a guaranteed wait-free manner ?

So yes, implementation of wait_free() notwithstanding, this is still the case. As such, this is the closest to wait-free you're going to get for checking the state.


1 In simple terms, this means "releasing" the CPU and putting your thread at the back of the scheduler's queue, giving other threads some CPU-time.




回答2:


To answer your second question, there is currently no way to check if the future is ready other than waiting. We will likely get this at some point: https://en.cppreference.com/w/cpp/experimental/future/is_ready. If your runtime library supports the concurrency extensions and you don't mind using experimental in your code, then you can use is_ready() now. That being said, I know of few cases where you must check a future's state. Are you sure it's necessary?




回答3:


Is it still the case when timeout_duration is 0 ?

Yes. That's true for any operation. The OS scheduler could pause the thread (or the whole process) to allow another thread to run on the same CPU.

If so, is there another way to query the state in a guaranteed wait-free manner ?

No. Using a zero timeout is the correct way.

There's not even a guarantee that the shared state of a std::future doesn't lock a mutex to check if it's ready, so it would be impossible to guarantee it was wait-free.

For GCC's implementation the ready flag is an atomic so there's no mutex lock needed, and if it's ready then wait_for returns immediately. If it's not ready then there are some more atomic operations and then a check to see if the timeout has passed already, then a system call. So for a zero timeout there are just some atomic loads and function calls (no system call).



来源:https://stackoverflow.com/questions/52514850/is-there-a-way-to-check-if-stdfuture-state-is-ready-in-a-guaranteed-wait-free

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