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Can I spawn a thread with pthread_create and use std::mutex inside of it safely?

I would think that if std::mutex is implemented as a pthread_mutex_t then it would be fine but I don't see this documented anywhere

For example:

#include <pthread.h>
#include <mutex>

std::mutex global_lock;

void *thread_func(void *vp)
    global_lock.lock(); // std::mutex used in thread spawned with pthread_create
    //critical section
    return NULL;

int main(void)
    pthread_t tid;
    pthread_create(&tid, NULL, &thread_func, NULL);
    pthread_join(tid, NULL);
    return 0;

BTW I'm running Debian Wheezy.

share|improve this question
Spawning a thread and locking a mutex are two separate concepts. Is your question actually about mixing concurrency control from STL and PThread or just this one instance in particular? –  user7116 Mar 12 '13 at 17:29
@sixlettervariables mixing control in general. –  Ryan Haining Mar 12 '13 at 17:30
Can you elaborate on the requirements/use case for this? Do you need to run the code from within C APIs? For this case this might be OK (since a C API running with pthread will need a pthread based C++ implementation). –  πάντα ῥεῖ Mar 12 '13 at 17:46
@g-makulik I'm not sure I understand what you're asking. My particular use case isn't as much what I'm concerned with, as whether these can be mixed in general. I don't intend to use any C API. let's assume C++11 all the way through. –  Ryan Haining Mar 12 '13 at 17:49

2 Answers 2

up vote 3 down vote accepted

You could on my machine (Debian too). But I'm not sure if I would call this safe.

If you look at the relevant file, /usr/include/c++/4.7/i486-linux-gnu/bits/gthr-default.h in my case, you will see that there will be a 1:1 mapping to the pthreads api. <mutex> uses __gthread_mutex_lock for locking which is defined exactly there to pthread_mutex_lock. Or you will see that std::thread declares typedef __gthread_t native_handle_type;

I don't know if there is a documented way to check if pthreads are used. But gthr-default.h defines _GLIBCXX_GCC_GTHR_POSIX_H as include guard and I think as long as this macro is defined, you can assume that you can mix them both.

Edit: Given the hint from @Wakely, I would write:

template <typename T>
using strip = typename std::remove_pointer<typename std::decay<T>::type>::type;

static_assert(std::is_same<strip<std::thread::native_handle_type>, pthread_t>::value,
              "libstdc++ doesn't use pthread_t");
share|improve this answer
Don't rely on implementation details like that macro, it could change next release (something this broke Boost.Thread recently.) std::is_same<std::thread::native_handle_type, pthread_t> is a pretty good indicator Pthreads is used, although native_handle_type could be pthread_t* or another related type and the test would fail –  Jonathan Wakely Mar 12 '13 at 23:34

There's no guarentee in any spec that it will work, but it's likely that any C++ implementation on an OS that uses pthreads as its only real threading library will use pthreads underneath C++ threads, so it will likely work.

You will likely run into problems if you later try to port the code to some other platform that uses something other than pthreads, even if that platform supports pthreads too (eg, windows).

The questions is, why bother and risk it? If you're using C++11 std::mutex, why not use std::thread as well?

share|improve this answer
I probably won't risk it, but I thought maybe it would be known to be safe. The reasons for wanting this are a but contrived. But let's just pretend that I'm using existing C++ code and updating it. Thanks for the answer. –  Ryan Haining Mar 12 '13 at 20:52
Why bother? Because pthread_create supports customization via pthread_attr_t that std::thread doesn't –  Jonathan Wakely Mar 12 '13 at 23:36
Even when the C++11 thread implementation isn't based on pthreads, it's very likely that any platform that has both APIs available implements them in terms of a common underlying platform API. Despite the lack of guarantee I think there is a reasonable expectation of practical portability. I think platforms lacking an implementation of one or the other will be far more common than platforms that implement the two APIs incompatibly. –  Casey Aug 2 '13 at 15:06

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