/* [auto_generated] boost/numeric/odeint/external/viennacl_operations.hpp [begin_description] ViennaCL operations. [end_description] Copyright 2012 Denis Demidov Copyright 2012 Karsten Ahnert Copyright 2012 Mario Mulansky 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_VIENNACL_VIENNACL_OPERATIONS_HPP_INCLUDED #define BOOST_NUMERIC_ODEINT_EXTERNAL_VIENNACL_VIENNACL_OPERATIONS_HPP_INCLUDED #include #ifdef VIENNACL_WITH_OPENCL # include #endif namespace boost { namespace numeric { namespace odeint { #ifdef VIENNACL_WITH_OPENCL struct viennacl_operations { template< class Fac1 = double , class Fac2 = Fac1 > struct scale_sum2 { const Fac1 m_alpha1; const Fac2 m_alpha2; scale_sum2( Fac1 alpha1 , Fac2 alpha2 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) { } template< class T1 , class T2 , class T3 > void operator()( viennacl::vector &v1 , const viennacl::vector &v2 , const viennacl::vector &v3 ) const { using namespace viennacl; static generator::symbolic_vector <0, T1> sym_v1; static generator::symbolic_vector <1, T2> sym_v2; static generator::symbolic_vector <2, T3> sym_v3; static generator::cpu_symbolic_scalar<3, Fac1> sym_a1; static generator::cpu_symbolic_scalar<4, Fac2> sym_a2; static generator::custom_operation op( sym_v1 = sym_a1 * sym_v2 + sym_a2 * sym_v3, "scale_sum2" ); ocl::enqueue( op(v1, v2, v3, m_alpha1, m_alpha2) ); } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 > struct scale_sum3 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; scale_sum3( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) { } template< class T1 , class T2 , class T3 , class T4 > void operator()( viennacl::vector &v1 , const viennacl::vector &v2 , const viennacl::vector &v3 , const viennacl::vector &v4 ) const { using namespace viennacl; static generator::symbolic_vector <0, T1> sym_v1; static generator::symbolic_vector <1, T2> sym_v2; static generator::symbolic_vector <2, T3> sym_v3; static generator::symbolic_vector <3, T4> sym_v4; static generator::cpu_symbolic_scalar<4, Fac1> sym_a1; static generator::cpu_symbolic_scalar<5, Fac2> sym_a2; static generator::cpu_symbolic_scalar<6, Fac3> sym_a3; static generator::custom_operation op( sym_v1 = sym_a1 * sym_v2 + sym_a2 * sym_v3 + sym_a3 * sym_v4, "scale_sum3" ); ocl::enqueue( op(v1, v2, v3, v4, m_alpha1, m_alpha2, m_alpha3) ); } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 > struct scale_sum4 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; scale_sum4( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) { } template< class T1 , class T2 , class T3 , class T4 , class T5 > void operator()( viennacl::vector &v1 , const viennacl::vector &v2 , const viennacl::vector &v3 , const viennacl::vector &v4 , const viennacl::vector &v5 ) const { using namespace viennacl; static generator::symbolic_vector <0, T1> sym_v1; static generator::symbolic_vector <1, T2> sym_v2; static generator::symbolic_vector <2, T3> sym_v3; static generator::symbolic_vector <3, T4> sym_v4; static generator::symbolic_vector <4, T5> sym_v5; static generator::cpu_symbolic_scalar<5, Fac1> sym_a1; static generator::cpu_symbolic_scalar<6, Fac2> sym_a2; static generator::cpu_symbolic_scalar<7, Fac3> sym_a3; static generator::cpu_symbolic_scalar<8, Fac4> sym_a4; static generator::custom_operation op( sym_v1 = sym_a1 * sym_v2 + sym_a2 * sym_v3 + sym_a3 * sym_v4 + sym_a4 * sym_v5, "scale_sum4" ); ocl::enqueue( op(v1, v2, v3, v4, v5, m_alpha1, m_alpha2, m_alpha3, m_alpha4) ); } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 , class Fac5 = Fac4 > struct scale_sum5 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; const Fac5 m_alpha5; scale_sum5( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 , Fac5 alpha5 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) , m_alpha5( alpha5 ) { } template< class T1 , class T2 , class T3 , class T4 , class T5 , class T6 > void operator()( viennacl::vector &v1 , const viennacl::vector &v2 , const viennacl::vector &v3 , const viennacl::vector &v4 , const viennacl::vector &v5 , const viennacl::vector &v6 ) const { using namespace viennacl; static generator::symbolic_vector < 0, T1> sym_v1; static generator::symbolic_vector < 1, T2> sym_v2; static generator::symbolic_vector < 2, T3> sym_v3; static generator::symbolic_vector < 3, T4> sym_v4; static generator::symbolic_vector < 4, T5> sym_v5; static generator::symbolic_vector < 5, T6> sym_v6; static generator::cpu_symbolic_scalar< 6, Fac1> sym_a1; static generator::cpu_symbolic_scalar< 7, Fac2> sym_a2; static generator::cpu_symbolic_scalar< 8, Fac3> sym_a3; static generator::cpu_symbolic_scalar< 9, Fac4> sym_a4; static generator::cpu_symbolic_scalar<10, Fac5> sym_a5; static generator::custom_operation op( sym_v1 = sym_a1 * sym_v2 + sym_a2 * sym_v3 + sym_a3 * sym_v4 + sym_a4 * sym_v5 + sym_a5 * sym_v6, "scale_sum5" ); ocl::enqueue( op(v1, v2, v3, v4, v5, v6, m_alpha1, m_alpha2, m_alpha3, m_alpha4, m_alpha5) ); } typedef void result_type; }; }; #else struct viennacl_operations : public default_operations {}; #endif } // odeint } // numeric } // boost #endif // BOOST_NUMERIC_ODEINT_EXTERNAL_VIENNACL_VIENNACL_OPERATIONS_HPP_INCLUDED