[/ / Copyright (c) 2003-2020 Christopher M. Kohlhoff (chris at kohlhoff dot com) / / Distributed under the Boost Software License, Version 1.0. (See accompanying / file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) /] [section:cpp2011 C++ 2011 Support] [link boost_asio.overview.cpp2011.move_objects Movable I/O Objects] [link boost_asio.overview.cpp2011.move_handlers Movable Handlers] [link boost_asio.overview.cpp2011.variadic Variadic Templates] [link boost_asio.overview.cpp2011.array Array Container] [link boost_asio.overview.cpp2011.atomic Atomics] [link boost_asio.overview.cpp2011.shared_ptr Shared Pointers] [link boost_asio.overview.cpp2011.chrono Chrono] [link boost_asio.overview.cpp2011.futures Futures] [section:move_objects Movable I/O Objects] When move support is available (via rvalue references), Boost.Asio allows move construction and assignment of sockets, serial ports, POSIX descriptors and Windows handles. Move support allows you to write code like: tcp::socket make_socket(io_context& i) { tcp::socket s(i); ... std::move(s); } or: class connection : public enable_shared_from_this { private: tcp::socket socket_; ... public: connection(tcp::socket&& s) : socket_(std::move(s)) {} ... }; ... class server { private: tcp::acceptor acceptor_; ... void handle_accept(error_code ec, tcp::socket socket) { if (!ec) std::make_shared(std::move(socket))->go(); acceptor_.async_accept(...); } ... }; as well as: std::vector sockets; sockets.push_back(tcp::socket(...)); A word of warning: There is nothing stopping you from moving these objects while there are pending asynchronous operations, but it is unlikely to be a good idea to do so. In particular, composed operations like [link boost_asio.reference.async_read async_read()] store a reference to the stream object. Moving during the composed operation means that the composed operation may attempt to access a moved-from object. Move support is automatically enabled for [^g++] 4.5 and later, when the [^-std=c++0x] or [^-std=gnu++0x] compiler options are used. It may be disabled by defining `BOOST_ASIO_DISABLE_MOVE`, or explicitly enabled for other compilers by defining `BOOST_ASIO_HAS_MOVE`. Note that these macros also affect the availability of [link boost_asio.overview.cpp2011.move_handlers movable handlers]. [endsect] [section:move_handlers Movable Handlers] With C++11 and later, user-defined completion handlers are only required to be move constructible, and are not required to be copy constructible. When move support is enabled, asynchronous that are documented as follows: template void async_XYZ(..., Handler handler); are actually declared as: template void async_XYZ(..., Handler&& handler); The handler argument is perfectly forwarded and the move construction occurs within the body of `async_XYZ()`. This ensures that all other function arguments are evaluated prior to the move. This is critical when the other arguments to `async_XYZ()` are members of the handler. For example: struct my_operation { unique_ptr socket; unique_ptr> buffer; ... void operator(error_code ec, size_t length) { ... socket->async_read_some(boost::asio::buffer(*buffer), std::move(*this)); ... } }; Move support is automatically enabled for [^g++] 4.5 and later, when the [^-std=c++0x] or [^-std=gnu++0x] compiler options are used. It may be disabled by defining `BOOST_ASIO_DISABLE_MOVE`, or explicitly enabled for other compilers by defining `BOOST_ASIO_HAS_MOVE`. Note that these macros also affect the availability of [link boost_asio.overview.cpp2011.move_objects movable I/O objects]. [endsect] [section:variadic Variadic Templates] When supported by a compiler, Boost.Asio can use variadic templates to implement the [link boost_asio.reference.basic_socket_streambuf.connect basic_socket_streambuf::connect()] and [link boost_asio.reference.basic_socket_iostream.connect basic_socket_iostream::connect()] functions. Support for variadic templates is automatically enabled for [^g++] 4.3 and later, when the [^-std=c++0x] or [^-std=gnu++0x] compiler options are used. It may be disabled by defining `BOOST_ASIO_DISABLE_VARIADIC_TEMPLATES`, or explicitly enabled for other compilers by defining `BOOST_ASIO_HAS_VARIADIC_TEMPLATES`. [endsect] [section:array Array Container] Where the standard library provides `std::array<>`, Boost.Asio: * Provides overloads for the [link boost_asio.reference.buffer buffer()] function. * Uses it in preference to `boost::array<>` for the [link boost_asio.reference.ip__address_v4.bytes_type ip::address_v4::bytes_type] and [link boost_asio.reference.ip__address_v6.bytes_type ip::address_v6::bytes_type] types. * Uses it in preference to `boost::array<>` where a fixed size array type is needed in the implementation. Support for `std::array<>` is automatically enabled for [^g++] 4.3 and later, when the [^-std=c++0x] or [^-std=gnu++0x] compiler options are used, as well as for Microsoft Visual C++ 10. It may be disabled by defining `BOOST_ASIO_DISABLE_STD_ARRAY`, or explicitly enabled for other compilers by defining `BOOST_ASIO_HAS_STD_ARRAY`. [endsect] [section:atomic Atomics] Boost.Asio's implementation can use `std::atomic<>` in preference to `boost::detail::atomic_count`. Support for the standard atomic integer template is automatically enabled for [^g++] 4.5 and later, when the [^-std=c++0x] or [^-std=gnu++0x] compiler options are used. It may be disabled by defining `BOOST_ASIO_DISABLE_STD_ATOMIC`, or explicitly enabled for other compilers by defining `BOOST_ASIO_HAS_STD_ATOMIC`. [endsect] [section:shared_ptr Shared Pointers] Boost.Asio's implementation can use `std::shared_ptr<>` and `std::weak_ptr<>` in preference to the Boost equivalents. Support for the standard smart pointers is automatically enabled for [^g++] 4.3 and later, when the [^-std=c++0x] or [^-std=gnu++0x] compiler options are used, as well as for Microsoft Visual C++ 10. It may be disabled by defining `BOOST_ASIO_DISABLE_STD_SHARED_PTR`, or explicitly enabled for other compilers by defining `BOOST_ASIO_HAS_STD_SHARED_PTR`. [endsect] [section:chrono Chrono] Boost.Asio provides timers based on the `std::chrono` facilities via the [link boost_asio.reference.basic_waitable_timer basic_waitable_timer] class template. The typedefs [link boost_asio.reference.system_timer system_timer], [link boost_asio.reference.steady_timer steady_timer] and [link boost_asio.reference.high_resolution_timer high_resolution_timer] utilise the standard clocks `system_clock`, `steady_clock` and `high_resolution_clock` respectively. Support for the `std::chrono` facilities is automatically enabled for [^g++] 4.6 and later, when the [^-std=c++0x] or [^-std=gnu++0x] compiler options are used. (Note that, for [^g++], the draft-standard `monotonic_clock` is used in place of `steady_clock`.) Support may be disabled by defining `BOOST_ASIO_DISABLE_STD_CHRONO`, or explicitly enabled for other compilers by defining `BOOST_ASIO_HAS_STD_CHRONO`. When standard `chrono` is unavailable, Boost.Asio will otherwise use the Boost.Chrono library. The [link boost_asio.reference.basic_waitable_timer basic_waitable_timer] class template may be used with either. [endsect] [section:futures Futures] The `boost::asio::use_future` special value provides first-class support for returning a C++11 `std::future` from an asynchronous operation's initiating function. To use `boost::asio::use_future`, pass it to an asynchronous operation instead of a normal completion handler. For example: std::future length = my_socket.async_read_some(my_buffer, boost::asio::use_future); Where a handler signature has the form: void handler(boost::system::error_code ec, result_type result); the initiating function returns a `std::future` templated on `result_type`. In the above example, this is `std::size_t`. If the asynchronous operation fails, the `error_code` is converted into a `system_error` exception and passed back to the caller through the future. Where a handler signature has the form: void handler(boost::system::error_code ec); the initiating function returns `std::future`. As above, an error is passed back in the future as a `system_error` exception. [link boost_asio.reference.use_future use_future], [link boost_asio.reference.use_future_t use_future_t], [link boost_asio.examples.cpp11_examples.futures Futures example (C++11)]. [endsect] [endsect]