Say I have a function whose prototype looks like this, belonging to class container_class:

std::vector<int> container_class::func(int param);

The function may or may not cause an infinite loop on certain inputs; it is impossible to tell which inputs will cause a success and which will cause an infinite loop. The function is in a library of which I do not have the source of and cannot modify (this is a bug and will be fixed in the next release in a few months, but for now I need a way to work around it), so solutions which modify the function or class will not work.

I've tried isolating the function using std::async and std::future, and using a while loop to constantly check the state of the thread:

container_class c();

long start = get_current_time(); //get the current time in ms
auto future = std::async(&container_class::func, &c, 2);

while(future.wait_for(0ms) != std::future_status::ready) {
    if(get_current_time() - start > 1000) {
        //forcibly terminate future


This code has many problems. One is that I can't forcibly terminate the std::future object (and the thread that it represents).

At the far extreme, if I can't find any other solution, I can isolate the function in its own executable, run it, and then check its state and terminate it appropriately. However, I would rather not do this.

How can I accomplish this? Is there a better way than what I'm doing right now?

  • 1
    @SeverinPappadeux of course not. The question linked asks about timed waits, the question here asks about forceful termination.
    – SergeyA
    Commented Mar 26, 2018 at 14:58
  • 1
    @SeverinPappadeux I'm not sure if that would work since the OP is calling a library function which can't be modified. Commented Mar 26, 2018 at 14:58
  • 1
    @SeverinPappadeux That still fails to explain how to end that thread the future is running is it is an infinite loop. Commented Mar 26, 2018 at 15:01
  • 3
    @MartinUeding no, one can not just simply kill a thread. If your thread has called new and the impl happens to lock a mutex; all your threads will deadlock on their next call to new.
    – UKMonkey
    Commented Mar 26, 2018 at 15:19
  • 2
    @SeverinPappadeux in this case please kindly explain how deleting an allocated future object is going to terminate it's execution thread. Ideally with reference to the documentation and code to show this.
    – SergeyA
    Commented Mar 26, 2018 at 18:17

1 Answer 1


You are out of luck, sorry.

First off, C++ doesn't even guarantee you there will be a thread for future execution. Although it would be extremely hard (probably impossible) to implement all std::async guarantees in a single thread, there is no direct prohibition of that, and also, there is certainly no guarantee that there will be a thread per async call. Because of that, there is no way to cancel the async execution.

Second, there is no such way even in the lowest level of thread implementation. While pthread_cancel exists, it won't protect you from infinite loops not visiting cancellation points, for example.

You can not arbitrarily kill a thread in Posix, and C++ thread model is based on it. A process really can't be a scheduler of it's own threads, and while sometimes it is a pain, it is what it is.

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