I don't need to terminate the thread correctly, or make it respond to a "terminate" command. I am interested in terminating the thread forcefully using pure C++11.

up vote 99 down vote accepted
  1. You could call std::terminate() from any thread and the thread you're referring to will forcefully end.

  2. You could arrange for ~thread() to be executed on the object of the target thread, without a intervening join() nor detach() on that object. This will have the same effect as option 1.

  3. You could design an exception which has a destructor which throws an exception. And then arrange for the target thread to throw this exception when it is to be forcefully terminated. The tricky part on this one is getting the target thread to throw this exception.

Options 1 and 2 don't leak intra-process resources, but they terminate every thread.

Option 3 will probably leak resources, but is partially cooperative in that the target thread has to agree to throw the exception.

There is no portable way in C++11 (that I'm aware of) to non-cooperatively kill a single thread in a multi-thread program (i.e. without killing all threads). There was no motivation to design such a feature.

A std::thread may have this member function:

native_handle_type native_handle();

You might be able to use this to call an OS-dependent function to do what you want. For example on Apple's OS's, this function exists and native_handle_type is a pthread_t. If you are successful, you are likely to leak resources.

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    -1 std::terminate kills ALL threads, terminating the program... – Chris Dodd Dec 21 '12 at 6:05
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    @ChrisDodd Counter +1, that's exactly what he writes in his answer. – inf Dec 21 '12 at 11:30
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    Slight nitpick on "don't leak intra-process resources": While it is of course true that the OS will reclaim all resources after killing the process, resources are leaked as far as the program is concerned. That is usually irrelevant, but may still be an issue in some cases. std::terminate neither calls static destructors nor does it flush output buffers, so the order in which resources are released isn't well-defined, nor do you have any guarantee that any of your data is visible to the user or written to permanent store, or even consistent and complete. – Damon Feb 19 '15 at 14:04
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    You can also call exit() or abort() to the same overall effect. – n.m. May 30 at 9:41

@Howard Hinnant's answer is both correct and comprehensive. But it might be misunderstood if it's read too quickly, because std::terminate() (whole process) happens to have the same name as the "terminating" that @AlexanderVX had in mind (1 thread).

Summary: "terminate 1 thread + forcefully (target thread doesn't cooperate) + pure C++11 = No way."

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    Ahh, my #1 is truly funny. You don't have to specify which thread you want to forcefully end. The system just magically knows which one you want to forcefully end and does it! – Howard Hinnant Dec 12 '13 at 15:31
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    Yes, the std::terminate() answer is like a classic mischievous Djinn story; it fulfills everything in the OP's wish to the letter, though probably not in the way he meant. The understated humor made me smile. :-) – Nanno Langstraat Jan 2 '14 at 1:00
  • Just have to prevent innocent C++ novices from getting their hopes up too far / too long. – Nanno Langstraat Jan 2 '14 at 1:01
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    Elegantly stated. :-) – Howard Hinnant Jan 2 '14 at 2:17
  • @NannoLangstraat dammnit... I had such high hopes, until I read on : ( ..lol, oh well +1's all around : ) – code_fodder Apr 11 at 8:30

This question actually have more deep nature and good understanding of the multithreading concepts in general will provide you insight about this topic. In fact there is no any language or any operating system which provide you facilities for asynchronous abruptly thread termination without warning to not use them. And all these execution environments strongly advise developer or even require build multithreading applications on the base of cooperative or synchronous thread termination. The reason for this common decisions and advices is that all they are built on the base of the same general multithreading model.

Let's compare multiprocessing and multithreading concepts to better understand advantages and limitations of the second one.

Multiprocessing assumes splitting of the entire execution environment into set of completely isolated processes controlled by the operating system. Process incorporates and isolates execution environment state including local memory of the process and data inside it and all system resources like files, sockets, synchronization objects. Isolation is a critically important characteristic of the process, because it limits the faults propagation by the process borders. In other words, no one process can affects the consistency of any another process in the system. The same is true for the process behaviour but in the less restricted and more blur way. In such environment any process can be killed in any "arbitrary" moment, because firstly each process is isolated, secondly, operating system have full knowledges about all resources used by process and can release all of them without leaking, and finally process will be killed by OS not really in arbitrary moment, but in the number of well defined points where the state of the process is well known.

In contrast, multithreading assumes running multiple threads in the same process. But all this threads are share the same isolation box and there is no any operating system control of the internal state of the process. As a result any thread is able to change global process state as well as corrupt it. At the same moment the points in which the state of the thread is well known to be safe to kill a thread completely depends on the application logic and are not known neither for operating system nor for programming language runtime. As a result thread termination at the arbitrary moment means killing it at arbitrary point of its execution path and can easily lead to the process-wide data corruption, memory and handles leakage, threads leakage and spinlocks and other intra-process synchronization primitives leaved in the closed state preventing other threads in doing progress.

Due to this the common approach is to force developers to implement synchronous or cooperative thread termination, where the one thread can request other thread termination and other thread in well-defined point can check this request and start the shutdown procedure from the well-defined state with releasing of all global system-wide resources and local process-wide resources in the safe and consistent way.

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    This isn't a very helpful answer. Multi-processing isn't relevant here, and the observations about multi-threading are rather broad. – MSalters Mar 17 '15 at 14:25
  • What I wanted to say and said in details is that multithreading model doesn't provide formal way of forceful thread termination. C++ wants to follow the clear models including memory model, multithreading model etc. Method of forceful thread termination is inherently unsafe. If C++ standard committee would be forced to add it to C++, it would be made with next statement "Method terminate() terminates thread execution. Behavior undefined.", which will be sound like "make some magic and (possibly) terminates the thread". – ZarathustrA Mar 18 '15 at 0:20

Tips of using OS-dependent function to terminate C++ thread:

  1. std::thread::native_handle() only can get the thread’s valid native handle type before calling join() or detach(). After that, native_handle() returns 0 - pthread_cancel() will coredump.

  2. To effectively call native thread termination function(e.g. pthread_cancel), you need to save the native handle before calling std::thread::join() or std::thread::detach(). So that your native terminator always has a valid native handle to use.

More explanations please refer to: http://bo-yang.github.io/2017/11/19/cpp-kill-detached-thread .

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