There are several differences between Boost.Thread and the C++11 standard thread library:
- Boost supports thread cancellation, C++11 threads do not
- C++11 supports
std::async, but Boost does not
- Boost has a
boost::shared_mutex for multiple-reader/single-writer locking, which is not present in C++11
- C++11 timeouts are different to Boost timeouts (though this should soon change now Boost.Chrono has been accepted).
- Some of the names are different (e.g.
- The argument-passing semantics of
std::thread are different to
boost::thread --- Boost uses
boost::bind, which requires copyable arguments.
std::thread allows move-only types such as
std::unique_ptr to be passed as arguments. Due to the use of
boost::bind, the semantics of placeholders such as
_1 in nested bind expressions can be different too.
- If you don't explicitly call
detach() then the
boost::thread destructor and assignment operator will call
detach() on the thread object being destroyed/assigned to. With a C++11
std::thread object, this will result in a call to
std::terminate() and abort the application.
To clarify the point about move-only parameters, the following is valid C++11, and transfers the ownership of the
int from the temporary
std::unique_ptr to the parameter of
f1 when the new thread is started. However, if you use
boost::thread then it won't work, as it uses
boost::bind internally, and
std::unique_ptr cannot be copied. There is also a bug in the C++11 thread library provided with GCC that prevents this working, as it uses
std::bind in the implementation there too.
std::thread t1(f1,std::unique_ptr<int>(new int(42)));
If you are using Boost then you can probably switch to C++11 threads relatively painlessly if your compiler supports it (e.g. recent versions of GCC on linux have a mostly-complete implementation of the C++11 thread library available in
If your compiler doesn't support C++11 threads then you may be able to get a third-party implementation such as Just::Thread, but this is still a dependency.