According to http://en.cppreference.com/w/cpp/thread/thread/detach :
Separates the thread of execution from the thread object, allowing
execution to continue independently. Any allocated resources will be
freed once the thread exits.
From http://pubs.opengroup.org/onlinepubs/009695299/functions/pthread_detach.html :
The pthread_detach() function shall indicate to the implementation
that storage for the thread thread can be reclaimed when that thread
terminates. If thread has not terminated, pthread_detach() shall not
cause it to terminate. The effect of multiple pthread_detach() calls
on the same target thread is unspecified.
Detaching threads is mainly for saving resources, in case the application does not need to wait for a thread to finish (e.g. daemons, which must run until process termination):
- To free the application side handle: One can let a
std::thread object go out of scope without joining, what normally leads to a call to
std::terminate() on destruction.
- To allow the OS to cleanup the thread specific resources (TCB) automatically as soon as the thread exits, because we explicitly specified, that we aren't interested in joining the thread later on, thus, one cannot join an already detached thread.
The behaviour on process termination ist the same as the one for the main thread, which could at least catch some signals. Whether or not other threads can handle signals is not that important, as one could join or terminate other threads within the main thread's signal handler invocation.
Related question: Propagating Signal (SIGINT) to C++11 threads
As already stated, any thread, whether detached or not, will die with its process on most OSes (http://en.wikipedia.org/wiki/Thread_(computing)). The process itself can be terminated by raising a signal, by calling
exit() or by returning from the main function. However, C++11 cannot and does not try to define the exact behaviour of the underlying OS, whereas the developers of a Java VM can surely abstract such differences to some extent. AFAIK, exotic process and threading models are usually found on ancient platforms (to which C++11 probably won't be ported) and various embedded systems, which could have a special and/or limited language library implementation and also limited language support.
If threads aren't supported
std::thread::get_id() should return an invalid id (default constructed
std::thread::id) as there's a plain process, which does not need a thread object to run and the constructor of a
std::thread should throw a
std::system_error. This is how I understand C++11 in conjunction with todays OSes. If there's an OS with threading support, which doesn't spawn a main thread in its processes, let me know.
If one needs to keep control over a thread for proper shutdown, one can do that by using sync primitives and/or some sort of flags. However, In this case, setting a shutdown flag followed by a join is the way I prefer, since there's no point in increasing complexity by detaching threads, as the resources would be freed at the same time anyway, where the few bytes of the
std::thread object vs. higher complexity and possibly more sync primitives should be acceptable.