yuzu/externals/vcpkg/packages/boost-asio_x64-windows/include/boost/asio/spawn.hpp

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//
// spawn.hpp
// ~~~~~~~~~
//
// Copyright (c) 2003-2022 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)
//
#ifndef BOOST_ASIO_SPAWN_HPP
#define BOOST_ASIO_SPAWN_HPP
#if defined(_MSC_VER) && (_MSC_VER >= 1200)
# pragma once
#endif // defined(_MSC_VER) && (_MSC_VER >= 1200)
#include <boost/asio/detail/config.hpp>
#include <boost/coroutine/all.hpp>
#include <boost/asio/any_io_executor.hpp>
#include <boost/asio/bind_executor.hpp>
#include <boost/asio/detail/memory.hpp>
#include <boost/asio/detail/type_traits.hpp>
#include <boost/asio/detail/wrapped_handler.hpp>
#include <boost/asio/io_context.hpp>
#include <boost/asio/is_executor.hpp>
#include <boost/asio/strand.hpp>
#include <boost/asio/detail/push_options.hpp>
namespace boost {
namespace asio {
/// A completion token that represents the currently executing coroutine.
/**
* The basic_yield_context class is a completion token type that is used to
* represent the currently executing stackful coroutine. A basic_yield_context
* object may be passed as a completion token to an asynchronous operation. For
* example:
*
* @code template <typename Handler>
* void my_coroutine(basic_yield_context<Handler> yield)
* {
* ...
* std::size_t n = my_socket.async_read_some(buffer, yield);
* ...
* } @endcode
*
* The initiating function (async_read_some in the above example) suspends the
* current coroutine. The coroutine is resumed when the asynchronous operation
* completes, and the result of the operation is returned.
*/
template <typename Handler>
class basic_yield_context
{
public:
/// The coroutine callee type, used by the implementation.
/**
* When using Boost.Coroutine v1, this type is:
* @code typename coroutine<void()> @endcode
* When using Boost.Coroutine v2 (unidirectional coroutines), this type is:
* @code push_coroutine<void> @endcode
*/
#if defined(GENERATING_DOCUMENTATION)
typedef implementation_defined callee_type;
#elif defined(BOOST_COROUTINES_UNIDIRECT) || defined(BOOST_COROUTINES_V2)
typedef boost::coroutines::push_coroutine<void> callee_type;
#else
typedef boost::coroutines::coroutine<void()> callee_type;
#endif
/// The coroutine caller type, used by the implementation.
/**
* When using Boost.Coroutine v1, this type is:
* @code typename coroutine<void()>::caller_type @endcode
* When using Boost.Coroutine v2 (unidirectional coroutines), this type is:
* @code pull_coroutine<void> @endcode
*/
#if defined(GENERATING_DOCUMENTATION)
typedef implementation_defined caller_type;
#elif defined(BOOST_COROUTINES_UNIDIRECT) || defined(BOOST_COROUTINES_V2)
typedef boost::coroutines::pull_coroutine<void> caller_type;
#else
typedef boost::coroutines::coroutine<void()>::caller_type caller_type;
#endif
/// Construct a yield context to represent the specified coroutine.
/**
* Most applications do not need to use this constructor. Instead, the
* spawn() function passes a yield context as an argument to the coroutine
* function.
*/
basic_yield_context(
const detail::weak_ptr<callee_type>& coro,
caller_type& ca, Handler& handler)
: coro_(coro),
ca_(ca),
handler_(handler),
ec_(0)
{
}
/// Construct a yield context from another yield context type.
/**
* Requires that OtherHandler be convertible to Handler.
*/
template <typename OtherHandler>
basic_yield_context(const basic_yield_context<OtherHandler>& other)
: coro_(other.coro_),
ca_(other.ca_),
handler_(other.handler_),
ec_(other.ec_)
{
}
/// Return a yield context that sets the specified error_code.
/**
* By default, when a yield context is used with an asynchronous operation, a
* non-success error_code is converted to system_error and thrown. This
* operator may be used to specify an error_code object that should instead be
* set with the asynchronous operation's result. For example:
*
* @code template <typename Handler>
* void my_coroutine(basic_yield_context<Handler> yield)
* {
* ...
* std::size_t n = my_socket.async_read_some(buffer, yield[ec]);
* if (ec)
* {
* // An error occurred.
* }
* ...
* } @endcode
*/
basic_yield_context operator[](boost::system::error_code& ec) const
{
basic_yield_context tmp(*this);
tmp.ec_ = &ec;
return tmp;
}
#if defined(GENERATING_DOCUMENTATION)
private:
#endif // defined(GENERATING_DOCUMENTATION)
detail::weak_ptr<callee_type> coro_;
caller_type& ca_;
Handler handler_;
boost::system::error_code* ec_;
};
#if defined(GENERATING_DOCUMENTATION)
/// Context object that represents the currently executing coroutine.
typedef basic_yield_context<unspecified> yield_context;
#else // defined(GENERATING_DOCUMENTATION)
typedef basic_yield_context<
executor_binder<void(*)(), any_io_executor> > yield_context;
#endif // defined(GENERATING_DOCUMENTATION)
/**
* @defgroup spawn boost::asio::spawn
*
* @brief Start a new stackful coroutine.
*
* The spawn() function is a high-level wrapper over the Boost.Coroutine
* library. This function enables programs to implement asynchronous logic in a
* synchronous manner, as illustrated by the following example:
*
* @code boost::asio::spawn(my_strand, do_echo);
*
* // ...
*
* void do_echo(boost::asio::yield_context yield)
* {
* try
* {
* char data[128];
* for (;;)
* {
* std::size_t length =
* my_socket.async_read_some(
* boost::asio::buffer(data), yield);
*
* boost::asio::async_write(my_socket,
* boost::asio::buffer(data, length), yield);
* }
* }
* catch (std::exception& e)
* {
* // ...
* }
* } @endcode
*/
/*@{*/
/// Start a new stackful coroutine, calling the specified handler when it
/// completes.
/**
* This function is used to launch a new coroutine.
*
* @param function The coroutine function. The function must have the signature:
* @code void function(basic_yield_context<Handler> yield); @endcode
*
* @param attributes Boost.Coroutine attributes used to customise the coroutine.
*/
template <typename Function>
void spawn(BOOST_ASIO_MOVE_ARG(Function) function,
const boost::coroutines::attributes& attributes
= boost::coroutines::attributes());
/// Start a new stackful coroutine, calling the specified handler when it
/// completes.
/**
* This function is used to launch a new coroutine.
*
* @param handler A handler to be called when the coroutine exits. More
* importantly, the handler provides an execution context (via the the handler
* invocation hook) for the coroutine. The handler must have the signature:
* @code void handler(); @endcode
*
* @param function The coroutine function. The function must have the signature:
* @code void function(basic_yield_context<Handler> yield); @endcode
*
* @param attributes Boost.Coroutine attributes used to customise the coroutine.
*/
template <typename Handler, typename Function>
void spawn(BOOST_ASIO_MOVE_ARG(Handler) handler,
BOOST_ASIO_MOVE_ARG(Function) function,
const boost::coroutines::attributes& attributes
= boost::coroutines::attributes(),
typename constraint<
!is_executor<typename decay<Handler>::type>::value &&
!execution::is_executor<typename decay<Handler>::type>::value &&
!is_convertible<Handler&, execution_context&>::value>::type = 0);
/// Start a new stackful coroutine, inheriting the execution context of another.
/**
* This function is used to launch a new coroutine.
*
* @param ctx Identifies the current coroutine as a parent of the new
* coroutine. This specifies that the new coroutine should inherit the
* execution context of the parent. For example, if the parent coroutine is
* executing in a particular strand, then the new coroutine will execute in the
* same strand.
*
* @param function The coroutine function. The function must have the signature:
* @code void function(basic_yield_context<Handler> yield); @endcode
*
* @param attributes Boost.Coroutine attributes used to customise the coroutine.
*/
template <typename Handler, typename Function>
void spawn(basic_yield_context<Handler> ctx,
BOOST_ASIO_MOVE_ARG(Function) function,
const boost::coroutines::attributes& attributes
= boost::coroutines::attributes());
/// Start a new stackful coroutine that executes on a given executor.
/**
* This function is used to launch a new coroutine.
*
* @param ex Identifies the executor that will run the coroutine. The new
* coroutine is implicitly given its own strand within this executor.
*
* @param function The coroutine function. The function must have the signature:
* @code void function(yield_context yield); @endcode
*
* @param attributes Boost.Coroutine attributes used to customise the coroutine.
*/
template <typename Function, typename Executor>
void spawn(const Executor& ex,
BOOST_ASIO_MOVE_ARG(Function) function,
const boost::coroutines::attributes& attributes
= boost::coroutines::attributes(),
typename constraint<
is_executor<Executor>::value || execution::is_executor<Executor>::value
>::type = 0);
/// Start a new stackful coroutine that executes on a given strand.
/**
* This function is used to launch a new coroutine.
*
* @param ex Identifies the strand that will run the coroutine.
*
* @param function The coroutine function. The function must have the signature:
* @code void function(yield_context yield); @endcode
*
* @param attributes Boost.Coroutine attributes used to customise the coroutine.
*/
template <typename Function, typename Executor>
void spawn(const strand<Executor>& ex,
BOOST_ASIO_MOVE_ARG(Function) function,
const boost::coroutines::attributes& attributes
= boost::coroutines::attributes());
#if !defined(BOOST_ASIO_NO_TS_EXECUTORS)
/// Start a new stackful coroutine that executes in the context of a strand.
/**
* This function is used to launch a new coroutine.
*
* @param s Identifies a strand. By starting multiple coroutines on the same
* strand, the implementation ensures that none of those coroutines can execute
* simultaneously.
*
* @param function The coroutine function. The function must have the signature:
* @code void function(yield_context yield); @endcode
*
* @param attributes Boost.Coroutine attributes used to customise the coroutine.
*/
template <typename Function>
void spawn(const boost::asio::io_context::strand& s,
BOOST_ASIO_MOVE_ARG(Function) function,
const boost::coroutines::attributes& attributes
= boost::coroutines::attributes());
#endif // !defined(BOOST_ASIO_NO_TS_EXECUTORS)
/// Start a new stackful coroutine that executes on a given execution context.
/**
* This function is used to launch a new coroutine.
*
* @param ctx Identifies the execution context that will run the coroutine. The
* new coroutine is implicitly given its own strand within this execution
* context.
*
* @param function The coroutine function. The function must have the signature:
* @code void function(yield_context yield); @endcode
*
* @param attributes Boost.Coroutine attributes used to customise the coroutine.
*/
template <typename Function, typename ExecutionContext>
void spawn(ExecutionContext& ctx,
BOOST_ASIO_MOVE_ARG(Function) function,
const boost::coroutines::attributes& attributes
= boost::coroutines::attributes(),
typename constraint<is_convertible<
ExecutionContext&, execution_context&>::value>::type = 0);
/*@}*/
} // namespace asio
} // namespace boost
#include <boost/asio/detail/pop_options.hpp>
#include <boost/asio/impl/spawn.hpp>
#endif // BOOST_ASIO_SPAWN_HPP