spawn() creates internally a new coroutine with do_accept() as coroutine-fn (do_accept() is executed by the coroutine) and passes io_serve and port as arguments
2013/12/19 Carlos Ferreira <carlosmf.pt@gmail.com>1.) do you know that boost.asio integrates boost.coroutine? example can be read at http://www.boost.org/doc/libs/1_55_0/doc/html/boost_asio/example/cpp03/spawn/echo_server.cppYes, I noticed that but I kinda got lost when I saw that spawn(...) used stackfull coroutines but at the boost::asio::coroutine documentation, stackless coroutines were described. I wanted to ensure I was using stackfull coroutines.boost::asio::spawn(io_service, boost::bind(do_accept, boost::ref(io_service), atoi(argv[1]), _1));spawn() creates internally a new coroutine with do_accept() as coroutine-fn (do_accept() is executed by the coroutine) and passes io_serve and port as arguments
2.) coroutine<> is a type holder, e.g. you have to derive from coroutine<>::push_type or coroutine<>::pull_typeI also saw that documentation and also got lost there... What is the difference between the push_type and pull_type? For what purposes should I use them?with the new interface boost.coroutine provides unidirectional transfer of data, e.g. you can push a data value (for instance std::string) from coroutine<std::string>::push_type to coroutine<std::string>::pull_type.
if you create push_type or pull_type the framework automatically create the counterpart for you and passes the instance to the coroutine-fn:void coro_fn1( coroutine<std::string>::pull_type & c) {
std::string s = c.get();
}coroutine<std::string>::push_type c( coro_fn1);std::string abc("abc");c(abc);orvoid coro_fn2( coroutine<std::string>::push_type & c) {
std::string xyz("xyz");c( xyz);}coroutine<std::string>::pull_type c( coro_fn2);while ( c) {std::string s = c.get();
c();}
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