Is passing a std::future to a detached instance of std::thread a safe operation? I know that underneath, the std::future has state in a shared_ptr which it shares with a std::promise. Here is an example.

int main()
    std::promise<void> p;
    std::thread( [f = p.get_future()]() {
        if ( f.wait_for( std::chrono::seconds( 2 ) ) == std::future_status::ready ) 

    } ).detach();

    // wait for some operation


There is a potential error case in the above code where the lambda is executed after the main thread exits. Does the shared state remain after the main thread exits?

  • How do you know that shared_ptr is used for the shared state? Is that in the standard? Cause I don't see it and I think it's an implementation detail. And so your code is most definitely not safe. – freakish Jul 8 at 21:05

[basic.start.term]/6 If there is a use of a standard library object or function not permitted within signal handlers (21.10) that does not happen before (4.7) completion of destruction of objects with static storage duration and execution of std::atexit registered functions (21.5), the program has undefined behavior.

Per [basic.start.main]/5, returning from main has the effect of calling std::exit, which does destroy objects with static storage duration and execute std::atexit registered functions. Therefore, I believe your example exhibits undefined behavior.

  • Can you add to your answer why objects with static storage duration being destroyed at std::atexit is relevant to the example? Where is the state of the std::future being stored and where is it stated in the standard? – shane Jul 9 at 13:45
  • 1
    It doesn't matter. Perhaps there is no object with static duration, and destroying them is a no-op. What matters is, there is a point in the execution of the main thread when all such objects (perhaps none) are destroyed, and all atexit handlers (perhaps none) are executed - a moment right before "control is returned to the host environment". You have a second thread running that calls standard library functions - it doesn't matter which ones, it's not specific to std::future - and those calls don't happen-before that special moment. Whereupon the program exhibits undefined behavior. – Igor Tandetnik Jul 9 at 13:55

According to cppreference:

In a typical implementation, std::shared_ptr holds only two pointers:
- the stored pointer (one returned by get());
- a pointer to control block.
The control block is a dynamically-allocated object...

Given this information, I wouldn't think that the termination of the main thread is going to affect the shared_ptr in the worker thread.

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