boost/compute/functional/detail/unpack.hpp
//---------------------------------------------------------------------------// // Copyright (c) 2013 Kyle Lutz <kyle.r.lutz@gmail.com> // // Distributed under the Boost Software License, Version 1.0 // See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt // // See http://boostorg.github.com/compute for more information. //---------------------------------------------------------------------------// #ifndef BOOST_COMPUTE_FUNCTIONAL_DETAIL_UNPACK_HPP #define BOOST_COMPUTE_FUNCTIONAL_DETAIL_UNPACK_HPP #include <boost/compute/functional/get.hpp> #include <boost/compute/type_traits/is_vector_type.hpp> #include <boost/compute/type_traits/result_of.hpp> #include <boost/compute/type_traits/vector_size.hpp> #include <boost/compute/detail/meta_kernel.hpp> namespace boost { namespace compute { namespace detail { template<class Function, class Arg, size_t Arity> struct invoked_unpacked { invoked_unpacked(const Function &f, const Arg &arg) : m_function(f), m_arg(arg) { } Function m_function; Arg m_arg; }; template<class Function, class Arg, size_t Arity> inline meta_kernel& operator<<(meta_kernel &k, const invoked_unpacked<Function, Arg, Arity> &expr); template<class Function, class Arg> inline meta_kernel& operator<<(meta_kernel &k, const invoked_unpacked<Function, Arg, 1> &expr) { return k << expr.m_function(get<0>()(expr.m_arg)); } template<class Function, class Arg> inline meta_kernel& operator<<(meta_kernel &k, const invoked_unpacked<Function, Arg, 2> &expr) { return k << expr.m_function(get<0>()(expr.m_arg), get<1>()(expr.m_arg)); } template<class Function, class Arg> inline meta_kernel& operator<<(meta_kernel &k, const invoked_unpacked<Function, Arg, 3> &expr) { return k << expr.m_function(get<0>()(expr.m_arg), get<1>()(expr.m_arg), get<2>()(expr.m_arg)); } template<class Function> struct unpacked { template<class T, class Enable = void> struct aggregate_length { BOOST_STATIC_CONSTANT(size_t, value = boost::tuples::length<T>::value); }; template<class T> struct aggregate_length<T, typename enable_if<is_vector_type<T> >::type> { BOOST_STATIC_CONSTANT(size_t, value = vector_size<T>::value); }; template<class TupleArg, size_t TupleSize> struct result_impl {}; template<class TupleArg> struct result_impl<TupleArg, 1> { typedef typename detail::get_result_type<0, TupleArg>::type T1; typedef typename boost::compute::result_of<Function(T1)>::type type; }; template<class TupleArg> struct result_impl<TupleArg, 2> { typedef typename detail::get_result_type<0, TupleArg>::type T1; typedef typename detail::get_result_type<1, TupleArg>::type T2; typedef typename boost::compute::result_of<Function(T1, T2)>::type type; }; template<class TupleArg> struct result_impl<TupleArg, 3> { typedef typename detail::get_result_type<0, TupleArg>::type T1; typedef typename detail::get_result_type<1, TupleArg>::type T2; typedef typename detail::get_result_type<2, TupleArg>::type T3; typedef typename boost::compute::result_of<Function(T1, T2, T3)>::type type; }; template<class Signature> struct result {}; template<class This, class Arg> struct result<This(Arg)> { typedef typename result_impl<Arg, aggregate_length<Arg>::value>::type type; }; unpacked(const Function &f) : m_function(f) { } template<class Arg> detail::invoked_unpacked< Function, Arg, aggregate_length<typename Arg::result_type>::value > operator()(const Arg &arg) const { return detail::invoked_unpacked< Function, Arg, aggregate_length<typename Arg::result_type>::value >(m_function, arg); } Function m_function; }; template<class Function> inline unpacked<Function> unpack(const Function &f) { return unpacked<Function>(f); } } // end detail namespace } // end compute namespace } // end boost namespace #endif // BOOST_COMPUTE_FUNCTIONAL_DETAIL_UNPACK_HPP