asio use_future而不是yield [ec]

问题描述 投票:1回答:1

我想制作期货的容器,每个期货都是任务的无效结果,因此我可以在容器上使用wait_for_any,每个任务是协程,我目前使用yield_context实现,并且在此协程中有返回ec和我使用ec分析result的结果。然后另一个协程称为传递相同yield_context。我想知道如何进行设计。如果我将使用use_future,除非将其抛出,否则除非将其抛出,否则如何将错误代码传递给ec而不抛出它,在这种情况下,我将尝试尝试并捕获异步启动函数。所有这些任务将在asio io_service上发布,生成...。这是我的主要代码部分:这是任务的产物

boost::asio::spawn(GetServiceReference(), boost::bind(&HTTPRequest::Execute, boost::placeholders::_1, m_HttpClient_request_name, Get_mHTTPClient_Responses_Map()));

这是使用yield_context的协程

void HTTPRequest::Execute(boost::asio::yield_context yield_r, std::string request_name, std::map<std::string, boost::shared_ptr<HTTPResponse>>& mHTTPClient_Responses_Map)
{
    resolver_iterator iterator_connect = boost::asio::async_connect(mSock, iterator_resolve, yield_r[ec]);
}

并且在Execute内部,我们使用ec进行分析

if (ec == boost::system::errc::errc_t::success){}

这里我们通过相同的yield_context启动另一个协程

SendRequest(yield_r);
}

我想更改此设置,因此我拥有所有衍生的Execute的期货容器,我不在乎Execute的结果,因为我将它们放入成员类Response中。但是我将来需要结果,以便可以在容器上使用wait_any。

boost-asio future boost-thread
1个回答
0
投票
如果可以更改实现,请使用async_result模式。

这使得您可以将您的方法与任何方法(完成处理程序,yield上下文或use_future)一起使用。

我从here复制了独立的示例以进行启发:

综合演示

显示如何与...一起使用

    色彩和产量[ec]
  • coro和收益+例外
  • std :: future
  • 完成处理程序

  • [Live On Coliru] >>#define BOOST_COROUTINES_NO_DEPRECATION_WARNING #include <iostream> #include <boost/asio.hpp> #include <boost/asio/spawn.hpp> #include <boost/asio/use_future.hpp> using boost::system::error_code; namespace asio = boost::asio; template <typename Token> auto async_meaning_of_life(bool success, Token&& token) { #if BOOST_VERSION >= 106600 using result_type = typename asio::async_result<std::decay_t<Token>, void(error_code, int)>; typename result_type::completion_handler_type handler(std::forward<Token>(token)); result_type result(handler); #else typename asio::handler_type<Token, void(error_code, int)>::type handler(std::forward<Token>(token)); asio::async_result<decltype (handler)> result (handler); #endif if (success) handler(error_code{}, 42); else handler(asio::error::operation_aborted, 0); return result.get (); } void using_yield_ec(asio::yield_context yield) { for (bool success : { true, false }) { boost::system::error_code ec; auto answer = async_meaning_of_life(success, yield[ec]); std::cout << __FUNCTION__ << ": Result: " << ec.message() << "\n"; std::cout << __FUNCTION__ << ": Answer: " << answer << "\n"; } } void using_yield_catch(asio::yield_context yield) { for (bool success : { true, false }) try { auto answer = async_meaning_of_life(success, yield); std::cout << __FUNCTION__ << ": Answer: " << answer << "\n"; } catch(boost::system::system_error const& e) { std::cout << __FUNCTION__ << ": Caught: " << e.code().message() << "\n"; } } void using_future() { for (bool success : { true, false }) try { auto answer = async_meaning_of_life(success, asio::use_future); std::cout << __FUNCTION__ << ": Answer: " << answer.get() << "\n"; } catch(boost::system::system_error const& e) { std::cout << __FUNCTION__ << ": Caught: " << e.code().message() << "\n"; } } void using_handler() { for (bool success : { true, false }) async_meaning_of_life(success, [](error_code ec, int answer) { std::cout << "using_handler: Result: " << ec.message() << "\n"; std::cout << "using_handler: Answer: " << answer << "\n"; }); } int main() { asio::io_service svc; spawn(svc, using_yield_ec); spawn(svc, using_yield_catch); std::thread work([] { using_future(); using_handler(); }); svc.run(); work.join(); } 

    打印:

    using_yield_ec: Result: Success using_yield_ec: Answer: 42 using_yield_ec: Result: Operation canceled using_yield_ec: Answer: 0 using_future: Answer: 42 using_yield_catch: Answer: 42 using_yield_catch: Caught: Operation canceled using_future: Caught: Operation canceled using_handler: Result: Success using_handler: Answer: 42 using_handler: Result: Operation canceled using_handler: Answer: 0 

    注意:为简单起见,我没有添加输出同步,因此输出可能会根据运行时执行顺序而混杂在一起
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