Is it possible to set a timeout for a call to std::thread::join()? I want to handle the case in which the thread is taking too long to run, or terminate the thread. I may be doing this for multiple threads (say, up to 30).

Preferably without boost, but I'd be interested in a boost solution if that's the best way.

  • What would you want to happen when the time runs out? Would the thread be terminated?
    – James M
    Mar 30, 2012 at 18:22
  • 5
    This is what std::thread::native_handle is for -- use OS facilities to do a timed join.
    – ildjarn
    Mar 30, 2012 at 18:26

6 Answers 6


There is no timeout for std::thread::join(). However you can view std::thread::join() as merely a convenience function. Using condition_variables you can create very rich communication and cooperation between your threads, including timed waits. For example:

#include <chrono>
#include <thread>
#include <iostream>

int thread_count = 0;
bool time_to_quit = false;
std::mutex m;
std::condition_variable cv;

void f(int id)
    std::lock_guard<std::mutex> _(m);
    while (true)
        std::lock_guard<std::mutex> _(m);
        std::cout << "thread " << id << " working\n";
        std::lock_guard<std::mutex> _(m);
        if (time_to_quit)
    std::lock_guard<std::mutex> _(m);
    std::cout << "thread ended\n";

int main()
    typedef std::chrono::steady_clock Clock;
    std::thread(f, 1).detach();
    std::thread(f, 2).detach();
    std::thread(f, 3).detach();
    std::thread(f, 4).detach();
    std::thread(f, 5).detach();
    auto t0 = Clock::now();
    auto t1 = t0 + std::chrono::seconds(5);
    std::unique_lock<std::mutex> lk(m);
    while (!time_to_quit && Clock::now() < t1)
        cv.wait_until(lk, t1);
    time_to_quit = true;
    std::cout << "main ending\n";
    while (thread_count > 0)
    std::cout << "main ended\n";

In this example main launches several threads to do work, all of which occasionally check if it is time to quit under a mutex (this could also be an atomic). The main thread also monitors if it is time to quit (if the threads get all their work done). If main runs out of patience, he just declares it to be time to quit, then waits for all threads to perform any necessary clean up before exiting.

  • 1
    This isn't quite right, as thread_count needs to be atomic, doesn't it? May 28, 2014 at 21:58
  • 3
    @MooingDuck: Not in this case because everywhere thread_count is read or written is under the locked state of m. So making thread_count atomic would be correct, but redundant and unnecessarily expensive. May 29, 2014 at 2:01
  • Actually, what caught my attention was while(thread_count>0) cv.wait(lk);. Isn't that one of those thingies that's allowed to cache thread_count and not work "how you'd expect"? May 29, 2014 at 2:44
  • 1
    @MooingDuck: thread_count is a global. Near program end it is modified by each thread while locked by mutex m. In main it is read in the final while loop while locked by mutex m. If main waits on cv, main unlocks m, allowing a thread to lock m, change thread_count, notify main, and unlock m. Upon waking main will lock m and read thread_count. If the implementation doesn't load variables after acquiring the lock on a mutex, there is a bug in the implementation. May 29, 2014 at 14:56
  • Ok. I'm still not used to how the rules have changed with the locks and mutexes and stuff. I'm used to looking for a volatile. Good to know. May 29, 2014 at 16:15

Yes, it is possible. The solution that has been suggested by Galik looks like this:

#include <thread>
#include <future>
// Launch the thread.
std::thread thread(ThreadFnc, ...);
// Terminate the thread.
auto future = std::async(std::launch::async, &std::thread::join, &thread);
if (future.wait_for(std::chrono::seconds(5)) 
    == std::future_status::timeout) {

  /* --- Do something, if thread has not terminated within 5 s. --- */


However, this essentially launches a third thread that performs the thread.join().

(Note: The destructor of future will block until thread has joined and the auxiliary thread has terminated.)

Maybe launching a thread just to bring another thread down is not what you want. There is another, portable solution without an auxiliary thread:

#include <thread>
#include <future>
// Launch the thread.
std::future<T_return>*  hThread 
  = new std::future<T_return>(std::async(std::launch::async, ThreadFnc, ...));
// Terminate the thread.
if (hThread->wait_for(std::chrono::seconds(5)) 
    == std::future_status::timeout) {

  /* --- Do something, if thread has not terminated within 5 s. --- */

} else
  delete hThread;

where T_return is the return type of your thread procedure. This scenario uses an std::future / std::async combination instead of an std::thread.

Note that hThread is a pointer. When you call the delete operator on it, it will invoke the destructor of *hThread and block until the thread has terminated.

I have tested both versions with gcc 4.9.3 on Cygwin.

  • 1
    Good approach, but I have to wait for several threads. (I use std::thread threads[nrOfThreads]) Is the first solution applicable in a for loop over threads? And what should I do if the timeout exceed? Thx
    – leon22
    Mar 3, 2016 at 12:47
  • The first half is a nice work-around, but the second half doesn't make sense plus it's bad style: Why don't you just use a future if you can put you're threads functionality in one function with future semantics? Why the plain pointer with new and delete? Obviously were talking about >= C++11, so this leaky approach is no good. And you don't need a pointer at all. Mar 4, 2016 at 13:51
  • @leon22: Handling of the timeout depends on the context of your application. If the process is about to terminate, I write a warning into the logfile and release the thread into oblivion. In other cases I might kill the thread. When the main thread of the process terminates, most operating systems will automatically kill all other threads within the process. Mar 7, 2016 at 7:43

Instead of using threads explicitly you can use std::async() to provide you with a std::future<> and you can do timed waits on the std::future:



For Boost, timed_join() is now deprecated. Use try_join_for() instead:


For Boost, see timed_join() for the version of join() with timeout.


The pthread_timedjoin_np() function performs a join-with-timeout. If the thread has not yet terminated, then the call blocks until a maximum time, specified in abstime. If the timeout expires before the thread terminates, the call returns an error.

int pthread_timedjoin_np(pthread_t thread, void **retval, const struct timespec *abstime);

Compile and link with -pthread.

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