/* [auto_generated] boost/numeric/odeint/external/thrust/thrust_algebra.hpp [begin_description] An algebra for thrusts device_vectors. [end_description] Copyright 2010-2013 Mario Mulansky Copyright 2010-2011 Karsten Ahnert Copyright 2013 Kyle Lutz 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) */ #ifndef BOOST_NUMERIC_ODEINT_EXTERNAL_THRUST_THRUST_ALGEBRA_HPP_INCLUDED #define BOOST_NUMERIC_ODEINT_EXTERNAL_THRUST_THRUST_ALGEBRA_HPP_INCLUDED #include #include #include #include namespace boost { namespace numeric { namespace odeint { namespace detail { // to use in thrust::reduce template< class Value > struct maximum { template< class Fac1 , class Fac2 > __host__ __device__ Value operator()( const Fac1 t1 , const Fac2 t2 ) const { return ( abs( t1 ) < abs( t2 ) ) ? t2 : t1 ; } typedef Value result_type; }; } /** ToDO extend until for_each14 for rk78 */ /* * The const versions are needed for boost.range to work, i.e. * it allows you to do * for_each1( make_pair( vec1.begin() , vec1.begin() + 10 ) , op ); */ struct thrust_algebra { template< class StateType , class Operation > static void for_each1( StateType &s , Operation op ) { thrust::for_each( boost::begin(s) , boost::end(s) , op ); } template< class StateType1 , class StateType2 , class Operation > static void for_each2( StateType1 &s1 , StateType2 &s2 , Operation op ) { thrust::for_each( thrust::make_zip_iterator( thrust::make_tuple( boost::begin(s1) , boost::begin(s2) ) ) , thrust::make_zip_iterator( thrust::make_tuple( boost::end(s1) , boost::end(s2) ) ) , op); } template< class StateType1 , class StateType2 , class StateType3 , class Operation > static void for_each3( StateType1 &s1 , StateType2 &s2 , StateType3 &s3 , Operation op ) { thrust::for_each( thrust::make_zip_iterator( thrust::make_tuple( boost::begin(s1) , boost::begin(s2) , boost::begin(s3) ) ) , thrust::make_zip_iterator( thrust::make_tuple( boost::end(s1) , boost::end(s2) , boost::end(s3) ) ) , op); } template< class StateType1 , class StateType2 , class StateType3 , class StateType4 , class Operation > static void for_each4( StateType1 &s1 , StateType2 &s2 , StateType3 &s3 , StateType4 &s4 , Operation op ) { thrust::for_each( thrust::make_zip_iterator( thrust::make_tuple( boost::begin(s1) , boost::begin(s2) , boost::begin(s3) , boost::begin(s4) ) ) , thrust::make_zip_iterator( thrust::make_tuple( boost::end(s1) , boost::end(s2) , boost::end(s3) , boost::end(s4) ) ) , op); } template< class StateType1 , class StateType2 , class StateType3 , class StateType4 , class StateType5 ,class Operation > static void for_each5( StateType1 &s1 , StateType2 &s2 , StateType3 &s3 , StateType4 &s4 , StateType5 &s5 , Operation op ) { thrust::for_each( thrust::make_zip_iterator( thrust::make_tuple( boost::begin(s1) , boost::begin(s2) , boost::begin(s3) , boost::begin(s4) , boost::begin(s5) ) ) , thrust::make_zip_iterator( thrust::make_tuple( boost::end(s1) , boost::end(s2) , boost::end(s3) , boost::end(s4) , boost::end(s5) ) ) , op); } template< class StateType1 , class StateType2 , class StateType3 , class StateType4 , class StateType5 , class StateType6 , class Operation > static void for_each6( StateType1 &s1 , StateType2 &s2 , StateType3 &s3 , StateType4 &s4 , StateType5 &s5 , StateType6 &s6 , Operation op ) { thrust::for_each( thrust::make_zip_iterator( thrust::make_tuple( boost::begin(s1) , boost::begin(s2) , boost::begin(s3) , boost::begin(s4) , boost::begin(s5) , boost::begin(s6) ) ) , thrust::make_zip_iterator( thrust::make_tuple( boost::end(s1) , boost::end(s2) , boost::end(s3) , boost::end(s4) , boost::end(s5) , boost::end(s6) ) ) , op); } template< class StateType1 , class StateType2 , class StateType3 , class StateType4 , class StateType5 , class StateType6 , class StateType7 , class Operation > static void for_each7( StateType1 &s1 , StateType2 &s2 , StateType3 &s3 , StateType4 &s4 , StateType5 &s5 , StateType6 &s6 , StateType7 &s7 , Operation op ) { thrust::for_each( thrust::make_zip_iterator( thrust::make_tuple( boost::begin(s1) , boost::begin(s2) , boost::begin(s3) , boost::begin(s4) , boost::begin(s5) , boost::begin(s6) , boost::begin(s7) ) ) , thrust::make_zip_iterator( thrust::make_tuple( boost::end(s1) , boost::end(s2) , boost::end(s3) , boost::end(s4) , boost::end(s5) , boost::end(s6) , boost::end(s7) ) ) , op); } template< class StateType1 , class StateType2 , class StateType3 , class StateType4 , class StateType5 , class StateType6 , class StateType7 , class StateType8 , class Operation > static void for_each8( StateType1 &s1 , StateType2 &s2 , StateType3 &s3 , StateType4 &s4 , StateType5 &s5 , StateType6 &s6 , StateType7 &s7 , StateType8 &s8 , Operation op ) { thrust::for_each( thrust::make_zip_iterator( thrust::make_tuple( boost::begin(s1) , boost::begin(s2) , boost::begin(s3) , boost::begin(s4) , boost::begin(s5) , boost::begin(s6) , boost::begin(s7) , boost::begin(s8) ) ) , thrust::make_zip_iterator( thrust::make_tuple( boost::end(s1) , boost::end(s2) , boost::end(s3) , boost::end(s4) , boost::end(s5) , boost::end(s6) , boost::end(s7) , boost::end(s8) ) ) , op); } template< class S > static typename S::value_type norm_inf( const S &s ) { typedef typename S::value_type value_type; return thrust::reduce( boost::begin( s ) , boost::end( s ) , static_cast(0) , detail::maximum() ); } }; } // odeint } // numeric } // boost #endif // BOOST_NUMERIC_ODEINT_EXTERNAL_THRUST_THRUST_ALGEBRA_HPP_INCLUDED