Why should I prefer one or another in practice? What are technical differences except that std::thread is a class?

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    In practise you should use std::async – inf Oct 30 '12 at 9:27
  • @bamboon This suffers from the same problems as std::thread does – Gunther Piez Oct 30 '12 at 10:05
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    @hirschhornsalz from compiler-support view, yes. from a technical viewpoint it offers exception safety, which std::thread or pthreads don't. – inf Oct 30 '12 at 10:11
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    Voted to reopen. The request for "technical differences" makes this objectively answerable. The high vote count indicates that others have found this post constructive and helpful. – Adrian McCarthy May 6 '15 at 22:02

If you want to run code on many platforms, go for Posix Threads. They are available almost everywhere and are quite mature. On the other hand if you only use Linux/gcc std::thread is perfectly fine - it has a higher abstraction level, a really good interface and plays nicely with other C++11 classes.

The C++11 std::thread class unfortunately doesn't work reliably (yet) on every platform, even if C++11 seems available. For instance in native Android std::thread or Win64 it just does not work or has severe performance bottlenecks (as of 2012).

A good replacement is boost::thread - it is very similar to std::thread (actually it is from the same author) and works reliably, but, of course, it introduces another dependency from a third party library.

Edit: As of 2017, std::thread mostly works on native Android. Some classes, like std::timed_mutex are still not implemented.

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    Do you have any evidence to back up these "performance bottleneck" claims? Also, std::thread and its raii-style is good because it can handle C++ exceptions while pthreads cannot out of the box. – Jesse Good Oct 30 '12 at 10:29
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    Now in 2014, s this answer still valid? – nonsensation Jun 8 '14 at 8:12
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    What about now, beginning of 2017? – rmobis Jan 31 '17 at 18:10
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    What about now, in 2017 Middle? – Lightness Races in Orbit Jun 27 '17 at 20:37
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    What about now, in 2018 Middle? – 陳 力 May 6 '18 at 12:37

The std::thread library is implemented on top of pthreads in an environment supporting pthreads (for example: libstdc++).

I think the big difference between the two is abstraction. std::thread is a C++ class library. The std::thread library includes many abstract features, for example: scoped locks, recursive mutexes, future/promise design pattern implementations, and more.

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    +1 from me for pointing out the most important thing, namely that std::thread delivers a higher level of abstraction. – sbi Oct 31 '12 at 12:25

std::thread provides portability across different platforms like Windows, MacOS, and Linux.

As mentioned by @hirshhornsalz in the comments below and related answer https://stackoverflow.com/a/13135425/1158895, std::thread may not be complete on all platforms yet. Even still, (it will be in the near future) it should be favored over pthread's because it should make your application more future-proof.

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    actually, std::threads provides portability across all platforms that support C++11, whereas POSIX threads is only available on POSIX platforms (or platforms that strive for some minimal compatability). – Tobias Langner Oct 30 '12 at 7:28
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    From the practical POV this is just wrong. I actually decided a few month ago on this reasoning - it was a major mistake. In practice you have to use boost::thread on Win64 or Bionic (Android), because std::thread is still lacking big parts, where on Linux std::thread seems quite mature. – Gunther Piez Oct 30 '12 at 8:39
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    @hirschhornsalz, the point of my answer is to point out the benefit of portability provided by the the c++11 thread implementation as compared to pthread. The OP didnt ask about boost, but its portable as well. – Brady Oct 30 '12 at 9:02
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    @hirschhornsalz, as for your negative tone and accusation of not ever using threads, they're just simply uncsontructive and dont deserve much effort on my part. I think its at least worth while mentioning that a more constructive comment would have been to point out the troubles you had trying to use std::thread on different platforms. – Brady Oct 30 '12 at 9:03
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    To summarize, c++11 std::thread is usable only with recent versions of GCC. It is not nearly complete in Visual Studio, therefore not usable on Windows. And of course it is absolutely missing in commercial compilers on UNIXes (Sun Studio on Solaris, HP aCC on HP-UX, IBM vacpp on AIX). Therefore, if your target platform is Linux only - c++11 std::thread is fine; if you also need Windows or other UNIX - boost::thread is the way to go. – vond Oct 30 '12 at 9:46

For me the deciding technical difference is the absence of signal handling primitives in std as opposed to pthreads. The inability to properly dictate signal handling in a Unix process using std alone is AFAIK a debilitating flaw in the use of std::thread as it bars one from setting up the bona fide multi-threaded signal handling pattern to process all signals in a dedicated thread and block them in the rest. You are forced to assume std::thread is implemented using pthreads and hope for the best when using pthread_sigmask. Handling signals properly is non-negotiable in Unix systems programming for the enterprise.

As at 2016, std::thread is a toy; simple as that.

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    I disagree. And heavy use of signals is a design pattern that can be avoided for most applications. – Erik Alapää Aug 24 '16 at 8:00
  • Also, std::thread brings type safety that pthread doesn't have. – alfC Apr 20 '18 at 3:36

The OpenMP


is a standardized, SMP based multithreading standard that has been working on Linux and Windows for over a decade already. The OpenMP is available by default with all compilers, including GCC and Microsoft Visual Studio.

One thing to watch out for, when using the OpenMP, is that if there are more threads than there are CPU-cores, then the performance will go down due to the context switching related overhead. The second thing to keep in mind is that the initialization of an actual, operating system level, thread is relatively expensive. The initialization is a fraction of a second, but in some applications the very small fractions accumulate to a considerable expense.

For software architecture requirements related concurrency You may want to search for some implementation of "lightweight threads" or "green threads" in stead of using the OpenMP. The difference is that the OpenMP threads are actual, operating system level, threads, but the "green threads" can be just "simulated threads" that are executed by using some small number of real threads.

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