Sometime I have to use std::thread to speed up my application. I also know join() waits until a thread completes. This is easy to understand, but what's the difference between calling detach() and not calling it?

I thought that without detach(), the thread's method will work using a thread independently.

Not detaching:

void Someclass::Somefunction() {

    std::thread t([ ] {
        printf("thread called without detach");

    //some code here

Calling with detaching:

void Someclass::Somefunction() {

    std::thread t([ ] {
        printf("thread called with detach");


    //some code here

6 Answers 6


In the destructor of std::thread, std::terminate is called if:

  • the thread was not joined (with t.join())
  • and was not detached either (with t.detach())

Thus, you should always either join or detach a thread before the flows of execution reaches the destructor.

When a program terminates (ie, main returns) the remaining detached threads executing in the background are not waited upon; instead their execution is suspended and their thread-local objects are not destructed.

Crucially, this means that the stack of those threads is not unwound and thus some destructors are not executed. Depending on the actions those destructors were supposed to undertake, this might be as bad a situation as if the program had crashed or had been killed. Hopefully the OS will release the locks on files, etc... but you could have corrupted shared memory, half-written files, and the like.

So, should you use join or detach ?

  • Use join
  • Unless you need to have more flexibility AND are willing to provide a synchronization mechanism to wait for the thread completion on your own, in which case you may use detach
  • If I would call pthread_exit(NULL); in main() then exit() wouldn't be called from main() and hence program will continue execution until all detached threads would complete. Then exit() would be called.
    – Kurovsky
    Jun 12, 2015 at 11:21
  • 2
    @Matthieu , why can't we join in the destructor of std::thread ?
    – john smith
    Aug 29, 2016 at 22:45
  • 2
    @johnsmith: An excellent question! What happens when you join? You wait until the thread complete. If an exception is thrown, destructors are executed... and suddenly the propagation of your exception is suspended until the thread terminates. There are many reasons for it not to, notably if it is waiting on input from the currently suspended thread! So the designers chose to make it an explicit choice, rather than pick a controversial default. Aug 29, 2016 at 23:20
  • @Matthieu I think you mean call join() before std::thread's destructor is reached. You can (and should?) join() the the destructor of an enclosing class? Nov 23, 2016 at 17:59
  • 6
    @JoseQuinteiro: Actually, unlike other resources, it is advised not to join from a destructor. The problem is that joining does not end a thread, it merely waits for it to end, and unlike you have a signal in place to cause the thread to terminate you might be waiting for a long time... blocking the current thread whose stack is being unwound and preventing this current thread from ever terminating thus blocking the thread waiting for it, etc... So, unless you are certain that you can stop a given thread in a reasonable amount of time, it is best not to wait for it in a destructor. Nov 23, 2016 at 19:05

You should call detach if you're not going to wait for the thread to complete with join but the thread instead will just keep running until it's done and then terminate without having the spawner thread waiting for it specifically; e.g.

std::thread(func).detach(); // It's done when it's done

detach basically will release the resources needed to be able to implement join.

It is a fatal error if a thread object ends its life and neither join nor detach has been called; in this case terminate is invoked.


This answer is aimed at answering question in the title, rather than explaining the difference between join and detach. So when should std::thread::detach be used?

In properly maintained C++ code std::thread::detach should not be used at all. Programmer must ensure that all the created threads gracefully exit releasing all the acquired resources and performing other necessary cleanup actions. This implies that giving up ownership of threads by invoking detach is not an option and therefore join should be used in all scenarios.

However some applications rely on old and often not well designed and supported APIs that may contain indefinitely blocking functions. Moving invocations of these functions into a dedicated thread to avoid blocking other stuff is a common practice. There is no way to make such a thread to exit gracefully so use of join will just lead to primary thread blocking. That's a situation when using detach would be a less evil alternative to, say, allocating thread object with dynamic storage duration and then purposely leaking it.

#include <LegacyApi.hpp>
#include <thread>

auto LegacyApiThreadEntry(void)
    auto result{NastyBlockingFunction()};
    // do something...

int main()
    ::std::thread legacy_api_thread{&LegacyApiThreadEntry};
    // do something...
    return 0;
  • I wouldn't say this only applies to legacy APIs, e.g. std::getline will block indefinitely
    – Hugo Burd
    Aug 11, 2020 at 19:01
  • 1
    "std::thread::detach should not be used at all" this is simply not true. If you have a thread that is supposed to live until the end of the program, you can detach it and in fact should detach it if you can't guarantee its completion, for example if thread contains a signal handler and will sometimes call exit instead of returning. Joining thread that never returns will lock your program. Mar 23 at 18:45
  • @ReverentLapwing I think you should read my answer past that sentence. I've mentioned a possible valid reason to detach a thread. And i should add that 1) there is no problem with graceful exit when thread contains a signal handler (if we are talking about posix signals) 2) invoking exit anywhere in the application is even worse practice than invoking detach since no destructors will be invoked and no cleanup performed. Mar 23 at 19:02
  • 1
    @starriet System does cleanup process memory and opened file handles upon process exiting. However no user-specified cleanup actions are performed. Basically detached threads are killed in the middle of whatever they were doing. For example, if detach thread has been writing into some buffered file stream then it won't be flushed and the accumulated data will be lost. May 9 at 10:04
  • 1
    @starriet detach is used here because invoking join will cause process to hang indefinitely until NastyBlockingFunction returns while leaving thread in joinable state will cause thread destructor invoke std::terminate crashing the process. May 11 at 7:35

When you detach thread it means that you don't have to join() it before exiting main().

Thread library will actually wait for each such thread below-main, but you should not care about it.

detach() is mainly useful when you have a task that has to be done in background, but you don't care about its execution. This is usually a case for some libraries. They may silently create a background worker thread and detach it so you won't even notice it.

  • 2
    This does not answer the question. The answer basically states "you detach when you detach".
    – rubenvb
    Jul 17, 2018 at 9:49

According to cppreference.com:

Separates the thread of execution from the thread object, allowing execution to continue independently. Any allocated resources will be freed once the thread exits.

After calling detach *this no longer owns any thread.

For example:

  std::thread my_thread([&](){XXXX});

Notice the local variable: my_thread, while the lifetime of my_thread is over, the destructor of std::thread will be called, and std::terminate() will be called within the destructor.

But if you use detach(), you should not use my_thread anymore, even if the lifetime of my_thread is over, nothing will happen to the new thread.

  • OK, I take back what I said just now.@TobySpeight
    – DinoStray
    Jul 17, 2018 at 9:55
  • 8
    Note that if you use & in the lambda capture you're using the enclosing scope's variables by reference - so you better be sure the lifetime of any you reference is longer than your thread lifetime.
    – DavidJ
    Feb 21, 2019 at 19:16
  • 1
    @DavidJ using [=] may possibly solve that problem.
    – user1300214
    Oct 6, 2021 at 10:28

Maybe it is good idea to iterate what was mentioned in one of the answers above: When the main function is finished and main thread is closing, all spawn threads either will be terminated or suspended. So, if you are relying on detach to have a background thread continue running after the main thread is shutdown, you are in for a surprise. To see the effect try the following. If you uncomment the last sleep call, then the output file will be created and written to fine. Otherwise not:

#include <mutex>
#include <thread>
#include <iostream>
#include <fstream>
#include <array>
#include <chrono>

using Ms = std::chrono::milliseconds;

std::once_flag oflag;
std::mutex mx;
std::mutex printMx;
int globalCount{};
std::ofstream *logfile;
void do_one_time_task() {
    //std::cout<<"I am in thread with thread id: "<< std::this_thread::get_id() << std::endl;
    std::call_once(oflag, [&]() {
    //  std::cout << "Called once by thread: " << std::this_thread::get_id() << std::endl; 
    //  std::cout<<"Initialized globalCount to 3\n";
        globalCount = 3;
        logfile = new std::ofstream("testlog.txt");
    // some more here
    for(int i=0; i<10; ++i){    
        *logfile << "thread: "<< std::this_thread::get_id() <<", globalCount = " << globalCount << std::endl;

    std::call_once(oflag, [&]() {
        //std::cout << "Called once by thread: " << std::this_thread::get_id() << std::endl;
        //std::cout << "closing logfile:\n";


int main()
    std::array<std::thread, 5> thArray;
    for (int i = 0; i < 5; ++i)
        thArray[i] = std::thread(do_one_time_task);

    for (int i = 0; i < 5; ++i)

    std::cout << "Main: globalCount = " << globalCount << std::endl;

    return 0;

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