以下示例在没有断言的情况下完成:
#include <cassert>
#include <functional>
#include <future>
#include <thread>
#include <boost/asio.hpp>
class example1
{
public:
typedef boost::asio::io_context io_context;
typedef boost::asio::io_context::executor_type executor_type;
typedef boost::asio::strand<executor_type> strand;
typedef boost::asio::executor_work_guard<executor_type> work_guard;
typedef std::function<void()> handler;
example1()
: work_(boost::asio::make_work_guard(context_)),
thread_([this]() { context_.run(); }),
strand1_(context_.get_executor()),
strand2_(context_.get_executor())
{
}
~example1()
{
assert(result_.get_future().get());
work_.reset();
thread_.join();
}
void invoke()
{
handler handle = boost::asio::bind_executor(strand2_,
std::bind(&example1::strand2_handler, this));
boost::asio::post(strand1_,
std::bind(&example1::strand1_handler, this, handle));
}
void strand1_handler(handler handle)
{
assert(strand1_.running_in_this_thread());
handle();
}
void strand2_handler()
{
assert(strand1_.running_in_this_thread());
////assert(strand2_.running_in_this_thread());
result_.set_value(true);
}
private:
io_context context_;
work_guard work_;
std::thread thread_;
strand strand1_;
strand strand2_;
std::promise<bool> result_;
};
int main()
{
example1 test{};
test.invoke();
}
但是我的期望是被注释掉的断言应该成功,而不是直接在它上面的断言。根据 strand::running_in_this_thread(),处理程序 handle 已在调用者的链中被调用,而不是提供给 bind_executor。
我可以使用中间方法解决这个问题,如下所示。
class example2
{
public:
typedef boost::asio::io_context io_context;
typedef boost::asio::io_context::executor_type executor_type;
typedef boost::asio::strand<executor_type> strand;
typedef boost::asio::executor_work_guard<executor_type> work_guard;
typedef std::function<void()> handler;
example2()
: work_(boost::asio::make_work_guard(context_)),
thread_([this]() { context_.run(); }),
strand1_(context_.get_executor()),
strand2_(context_.get_executor())
{
}
~example2()
{
assert(result_.get_future().get());
work_.reset();
thread_.join();
}
void invoke()
{
handler handle =
std::bind(&example2::do_strand2_handler, this);
boost::asio::post(strand1_,
std::bind(&example2::strand1_handler, this, handle));
}
void strand1_handler(handler handle)
{
assert(strand1_.running_in_this_thread());
handle();
}
// Do the job of bind_executor.
void do_strand2_handler()
{
boost::asio::post(strand2_,
std::bind(&example2::strand2_handler, this));
}
void strand2_handler()
{
////assert(strand1_.running_in_this_thread());
assert(strand2_.running_in_this_thread());
result_.set_value(true);
}
private:
io_context context_;
work_guard work_;
std::thread thread_;
strand strand1_;
strand strand2_;
std::promise<bool> result_;
};
int main()
{
example2 test2{};
test2.invoke();
}
但避免这种情况大概是
绑定(bind)执行器。这是一个 boost 错误还是我遗漏了什么?我已经尝试通过 boost::asio 源代码进行跟踪,但无济于事。
更新
感谢@sehe 提供的大量帮助。上述问题可以通过多种方式解决,例如:
class example3
{
public:
typedef boost::asio::io_context io_context;
typedef boost::asio::io_context::executor_type executor_type;
typedef boost::asio::strand<executor_type> strand;
typedef boost::asio::executor_work_guard<executor_type> work_guard;
typedef boost::asio::executor_binder<std::function<void()>,
boost::asio::any_io_executor> handler;
example3()
: work_(boost::asio::make_work_guard(context_)),
thread_([this]() { context_.run(); }),
strand1_(context_.get_executor()),
strand2_(context_.get_executor())
{
}
~example3()
{
assert(result_.get_future().get());
work_.reset();
thread_.join();
}
void invoke()
{
auto handle = boost::asio::bind_executor(strand2_,
std::bind(&example3::strand2_handler, this));
boost::asio::post(strand1_,
std::bind(&example3::strand1_handler, this, handle));
}
void strand1_handler(handler handle)
{
assert(strand1_.running_in_this_thread());
boost::asio::dispatch(handle);
}
void strand2_handler()
{
assert(strand2_.running_in_this_thread());
result_.set_value(true);
}
private:
io_context context_;
work_guard work_;
std::thread thread_;
strand strand1_;
strand strand2_;
std::promise<bool> result_;
};
int main
{
example3 test3{};
test3.invoke();
}
最佳答案
是的,您确实遗漏了一些东西。实际上有两件事。
类型删除
绑定(bind)一个执行器不会修改函数,它会修改它的类型。
但是,通过使用 std::function<> 删除可调用对象的类型你已经隐藏了绑定(bind)的执行者。你可以很容易地确定这一点:
erased_handler handle = bind_executor(s2, s2_handler);
assert(asio::get_associated_executor(handle, s1) == s1);
保留类型后问题就消失了:
auto handle = bind_executor(s2, s2_handler);
assert(asio::get_associated_executor(handle, s1) == s2);
调度(原 handler_invoke)
调用 handle正如您所发现的,直接根据 C++ 语言语义调用它。
要让 Asio 尊重潜在绑定(bind)的执行者,您可以使用 dispatch (或 post ):
auto s1_handler = [&](auto chain) {
assert(s1.running_in_this_thread());
dispatch(get_associated_executor(chain, s1), chain);
};
事实上,如果您确定 chain将有一个关联的执行程序,你可以接受默认的回退(这是一个系统执行程序):
auto s1_handler = [&](auto chain) {
assert(s1.running_in_this_thread());
dispatch(chain);
};
将它们放在一起
在简化的扩展测试器中展示智慧:
#include <boost/asio.hpp>
#include <functional>
#include <iostream>
namespace asio = boost::asio;
int main() {
asio::thread_pool io(1);
auto s1 = make_strand(io), s2 = make_strand(io);
assert(s1 != s2); // implementation defined! strands may hash equal
auto s1_handler = [&](auto chain) {
assert(s1.running_in_this_thread());
// immediate invocation runs on the current strand:
chain();
// dispatch *might* invoke directly if already on the right strand
dispatch(chain); // 1
dispatch(get_associated_executor(chain, s1), chain); // 2
// posting never immediately invokes, even if already on the right
// strand
post(chain); // 3
post(get_associated_executor(chain, s1), chain); // 4
};
int count_chain_invocations = 0;
auto s2_handler = [&] {
if (s2.running_in_this_thread()) {
count_chain_invocations += 1;
} else {
std::cout << "(note: direct C++ call ends up on wrong strand)\n";
}
};
{
using erased_handler = std::function<void()>;
erased_handler handle = bind_executor(s2, s2_handler);
assert(asio::get_associated_executor(handle, s1) == s1);
}
{
auto handle = bind_executor(s2, s2_handler);
assert(asio::get_associated_executor(handle, s1) == s2);
}
auto handle = bind_executor(s2, s2_handler);
post(s1, std::bind(s1_handler, handle));
io.join();
std::cout << "count_chain_invocations: " << count_chain_invocations << "\n";
}
所有断言均通过,输出符合预期:
(note: direct C++ call ends up on wrong strand)
count_chain_invocations: 4
奖励:如果您需要类型删除的绑定(bind)可调用对象怎么办?
无论你做什么,都不要使用 std::function .不过,您可以包装一个;
template <typename Sig> struct ErasedHandler {
using executor_type = asio::any_io_executor;
std::function<Sig> _erased;
executor_type _ex;
executor_type get_executor() const { return _ex; }
template <typename F>
explicit ErasedHandler(F&& f)
: _erased(std::forward<F>(f))
, _ex(asio::get_associated_executor(f)) {}
ErasedHandler() = default;
template <typename... Args>
decltype(auto) operator()(Args&&... args) const {
return _erased(std::forward<Args>(args)...);
}
template <typename... Args>
decltype(auto) operator()(Args&&... args) {
return _erased(std::forward<Args>(args)...);
}
explicit operator bool() const { return _erased; }
};
在你这样做之前,请注意
- 使用
any_io_executor还键入删除执行程序,这可能会损害性能 - 它确实不提供了一个很好的后备方案,只是将系统执行器用于未绑定(bind)的可调用对象。您可以通过检测它并要求显式构造函数参数等来解决这个问题,但是...
- 所有这些仍然完全忽略了其他处理程序属性,例如关联的分配器
我可能会避免一般地存储类型删除的可链接处理程序。您通常可以存储由模板类型参数推导的处理程序的实际类型。
PS:事后思考
您可能期望的是这种行为:
template <typename... Args>
decltype(auto) operator()(Args&&... args) const {
// CAUTION: NOT WHAT YOU WANT
boost::asio::dispatch(_ex,
std::bind(_erased, std::forward<Args>(args)...));
}
template <typename... Args>
decltype(auto) operator()(Args&&... args) {
// CAUTION: NOT WHAT YOU WANT
boost::asio::dispatch(_ex,
std::bind(_erased, std::forward<Args>(args)...));
}
看到那个 Live On Coliru
在这种情况下,即使是直接的 C++ 调用也会“做正确的事”。
这看起来不错。直到你想到为止。
问题是处理程序不能以这种方式反弹。更具体地说,如果您有一个与“自由线程”执行程序关联的处理程序,则执行 bind_executor(strand, f)不会有任何影响(除了减慢你的程序),因为 f无论如何都会令人讨厌地 dispatch 给另一个执行者。
所以不要那样做:)
关于c++11 - boost::asio::bind_executor 不在 strand 中执行,我们在Stack Overflow上找到一个类似的问题: https://stackoverflow.com/questions/71475533/