Boost.Tuple是否与C++ 0x可变参数模板兼容？

Question

我正在使用可变参数模板(gcc 4.5)并遇到这个问题:

template <typename... Args>
boost::tuple<Args...>
my_make_tuple(Args... args)
{
   return boost::tuple<Args...>(args...);
}

int main (void)
{
    boost::tuple<int, char> t = my_make_tuple(8, 'c');
}

GCC错误消息:

sorry, unimplemented: cannot expand 'Arg ...' into a fixed-length argument list
In function 'int my_make_tuple(Arg ...)'

如果我更换的每次出现boost::tuple的std::tuple,它编译罚款.
boost元组实现有问题吗？或者这是一个gcc bug？

我现在必须坚持使用Boost.Tuple.你知道任何解决方法吗？
谢谢.

Answer 1

它似乎并不像Boost 那样扩展Args...到T1, T2, T3, ..., T9它.

要解决此问题,请使用不需要此扩展的构造:

#include <boost/tuple/tuple.hpp>

template <typename... Args>
auto my_make_tuple(Args... args) -> decltype(boost::make_tuple(args...))
{
   return {args...};
}

int main (void)
{
    boost::tuple<int, char> t = my_make_tuple(8, 'c');
}

另一种选择可能是手动扩展,看到它boost::tuple最多支持10个参数.

#include <boost/tuple/tuple.hpp>

template <unsigned, class, class...> struct nth_argument;

template <unsigned N, class Default, class T, class... Args>
struct nth_argument<N, Default, T, Args...>
{
    typedef typename nth_argument<N - 1, Default, Args...>::type type;
};

template <class Default, class T, class... Args>
struct nth_argument<0, Default, T, Args...>
{
    typedef T type;
};

template <unsigned N, class Default>
struct nth_argument<N, Default>
{
    typedef Default type;
};

template <typename ...Args>
struct tuple_from_var_template
{
    typedef boost::tuple<
        typename nth_argument<0, boost::tuples::null_type, Args...>::type,
        typename nth_argument<1, boost::tuples::null_type, Args...>::type,
        typename nth_argument<2, boost::tuples::null_type, Args...>::type,
        typename nth_argument<3, boost::tuples::null_type, Args...>::type,
        typename nth_argument<4, boost::tuples::null_type, Args...>::type,
        typename nth_argument<5, boost::tuples::null_type, Args...>::type,
        typename nth_argument<6, boost::tuples::null_type, Args...>::type,
        typename nth_argument<7, boost::tuples::null_type, Args...>::type,
        typename nth_argument<8, boost::tuples::null_type, Args...>::type,
        typename nth_argument<9, boost::tuples::null_type, Args...>::type
    > type;
};

template <typename... Args>
typename tuple_from_var_template<Args...>::type my_make_tuple(Args... args)
{
   return typename tuple_from_var_template<Args...>::type(args...);
}

int main (void)
{
    boost::tuple<int, char> t = my_make_tuple(8, 'c');
}