将可变参数模板传递给pthread_create
[英]Passing variadic template to pthread_create
问题描述
我知道pthread_create接受一个void*(*)(void*)参数和一个void* ,所以我进行了2次(失败的)尝试来包装Function和Args ...:
一种。 创建一个C样式的void *run(void*)函数,该函数将调用传递给它的std::function对象:
class thread
{
public:
typedef std::function<void()> functor_t;
static void* run(void* f)
{
functor_t* functor = (functor_t*)f;
(*functor)();
delete functor;
return nullptr;
}
template<typename Callable, typename... Args>
explicit thread(size_t stack_size, Callable && callable, Args&&... args) {
auto task_ptr = std::make_shared<std::packaged_task<decltype(callable(args...))()>>(
std::bind(std::forward<Callable>(callable), std::placeholders::_1, std::forward<Args>(args)...)
);
functor_t* functor = new functor_t([task_ptr]() {
(*task_ptr)();
});
pthread_attr_t attr = { 0};
if (pthread_attr_init(&attr) == 0)
{
m_joinable = pthread_attr_setstacksize(&attr, stack_size) == 0 &&
pthread_create(&m_id, &attr, &run, functor);
pthread_attr_destroy(&attr);
}
}
private:
pthread_t m_id = -1 ;
bool m_joinable = false ;
};
这会在GCC 4.8.5中导致以下错误:
/usr/include/c++/4.8.2/功能:在'struct std :: _ Bind_simple(std :: _ Placeholder <1>,int))(int *)>>()>'的实例中:/ usr / include / c ++ / 4.8.2 / future:1284:55:需要'void std :: __ future_base :: _ Task_state <_Fn,_Alloc,_Res(_Args ...)> :: _ M_run(_Args ...)[with _Fn = std :: _ Bind(std :: _ Placeholder <1>,int))(int *)>; _Alloc = std :: allocator; _Res = void; _Args = {}]'thread.cpp:17:1:从此处开始需要/usr/include/c++/4.8.2/functional:1697:61:错误:“ class std :: result_of( std :: _ Placeholder <1>,int))(int *)>>()>'typedef类型名result_of <_Callable(_Args ...)> :: type result_type; ^ /usr/include/c++/4.8.2/functional:1727:9:错误:在'class std :: result_of(std :: _ Placeholder <1>,int))(int *)>中没有名为'type'的类型>()>'_M_invoke(_Index_tuple <_Indices ...>)^
湾 按照此示例http://coliru.stacked-crooked.com/a/a6c607514601b013
class thread
{
public:
template< typename Callable, typename... Args >
explicit thread(size_t stack_size, Callable&& callable, Args&&... args )
{
auto l = new auto([=]{ callable(args...); });
auto te = [](void* rp) -> void*
{
auto p = reinterpret_cast<decltype(l)>(rp);
(*p)();
delete p;
return nullptr;
};
pthread_attr_t attr = { 0};
if (pthread_attr_init(&attr) == 0)
{
m_joinable = pthread_attr_setstacksize(&attr, stack_size) == 0 &&
pthread_create(&m_id, &attr, te, l);
pthread_attr_destroy(&attr);
}
}
private:
pthread_t m_id = -1 ;
bool m_joinable = false ;
};
这应该可以在clang中使用,但在GCC 4.8.5中将失败,并且:
在thread.cpp:2:0包含的文件中:thread.h:在lambda函数中:thread.h:82:37:错误:参数包未使用'...'扩展:自动l =新自动([=] {callable(args ...);}); ^ thread.h:82:37:注意:
'args'thread.h:82:41:错误:扩展模式'args'不包含任何参数包auto l = new auto([=] {callable(args ...);}); ^ thread.h:在'struct thread :: thread(size_t,Callable &&,Args && ...)的实例中[带有Callable = void( )(int ); Args = {int *}; size_t = long unsigned int] :: __ lambda4':thread.h:82:48:
需要来自'thread :: thread(size_t,Callable && ,, Args && ...)[with Callable = void( )(int ); Args = {int *}; size_t = long unsigned int]'thread.cpp:14:32:从此处需要thread.h:82:37:错误:使用无效字段'thread :: thread(size_t,Callable &&,Args && ...):: __ lambda4: :__ args'auto l = new auto([=] {callable(args ...);}); ^ thread.h:83:被先前的错误所迷惑,无法解决
两者都与下面的主程序一起运行:
int g=5;
void run(int *i)
{
printf("t\n");
}
int main()
{
gs_thread t(256*1024, &run, &g);
printf("m\n");
t.join();
}
1 个解决方案
解决方案1
1 已采纳 2018-10-23 09:34:37
如果从第一个版本中删除std::placeholders::_1,它将使用gcc进行编译。
将Lambda传递给pthread_create?
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