boost/numeric/odeint/algebra/default_operations.hpp
/* [auto_generated] boost/numeric/odeint/algebra/default_operations.hpp [begin_description] Default operations. They work with the default numerical types, like float, double, complex< double> ... [end_description] Copyright 2010-2012 Karsten Ahnert Copyright 2010-2013 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_ALGEBRA_DEFAULT_OPERATIONS_HPP_INCLUDED #define BOOST_NUMERIC_ODEINT_ALGEBRA_DEFAULT_OPERATIONS_HPP_INCLUDED #include <algorithm> #include <boost/config.hpp> #include <boost/array.hpp> #include <boost/numeric/odeint/util/unit_helper.hpp> namespace boost { namespace numeric { namespace odeint { /* * Notes: * * * the results structs are needed in order to work with fusion_algebra */ struct default_operations { template< class Fac1 = double > struct scale { const Fac1 m_alpha1; scale( Fac1 alpha1 ) : m_alpha1( alpha1 ) { } template< class T1 > void operator()( T1 &t1 ) const { t1 *= m_alpha1; } typedef void result_type; }; template< class Fac1 = double > struct scale_sum1 { const Fac1 m_alpha1; scale_sum1( Fac1 alpha1 ) : m_alpha1( alpha1 ) { } template< class T1 , class T2 > void operator()( T1 &t1 , const T2 &t2 ) const { t1 = m_alpha1 * t2; } typedef void result_type; }; 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()( T1 &t1 , const T2 &t2 , const T3 &t3) const { t1 = m_alpha1 * t2 + m_alpha2 * t3; } 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()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 ) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4; } 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()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5; } 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()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5 , const T6 &t6) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5 + m_alpha5 * t6; } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 , class Fac5 = Fac4 , class Fac6 = Fac5 > struct scale_sum6 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; const Fac5 m_alpha5; const Fac6 m_alpha6; scale_sum6( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 , Fac5 alpha5 , Fac6 alpha6 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) , m_alpha5( alpha5 ) , m_alpha6( alpha6 ){ } template< class T1 , class T2 , class T3 , class T4 , class T5 , class T6 , class T7 > void operator()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5 , const T6 &t6 ,const T7 &t7) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5 + m_alpha5 * t6 + m_alpha6 * t7; } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 , class Fac5 = Fac4 , class Fac6 = Fac5 , class Fac7 = Fac6 > struct scale_sum7 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; const Fac5 m_alpha5; const Fac6 m_alpha6; const Fac7 m_alpha7; scale_sum7( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 , Fac5 alpha5 , Fac6 alpha6 , Fac7 alpha7 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) , m_alpha5( alpha5 ) , m_alpha6( alpha6 ) , m_alpha7( alpha7 ) { } template< class T1 , class T2 , class T3 , class T4 , class T5 , class T6 , class T7 , class T8 > void operator()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5 , const T6 &t6 , const T7 &t7 , const T8 &t8 ) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5 + m_alpha5 * t6 + m_alpha6 * t7 + m_alpha7 * t8; } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 , class Fac5 = Fac4 , class Fac6 = Fac5 , class Fac7 = Fac6 , class Fac8 = Fac7 > struct scale_sum8 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; const Fac5 m_alpha5; const Fac6 m_alpha6; const Fac7 m_alpha7; const Fac8 m_alpha8; scale_sum8( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 , Fac5 alpha5 , Fac6 alpha6 , Fac7 alpha7 , Fac8 alpha8 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) , m_alpha5( alpha5 ) , m_alpha6( alpha6 ) , m_alpha7( alpha7 ) , m_alpha8( alpha8 ) { } template< class T1 , class T2 , class T3 , class T4 , class T5 , class T6 , class T7 , class T8 , class T9 > void operator()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5 , const T6 &t6 , const T7 &t7 , const T8 &t8 , const T9 &t9 ) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5 + m_alpha5 * t6 + m_alpha6 * t7 + m_alpha7 * t8 + m_alpha8 * t9; } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 , class Fac5 = Fac4 , class Fac6 = Fac5 , class Fac7 = Fac6 , class Fac8 = Fac7 , class Fac9 = Fac8 > struct scale_sum9 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; const Fac5 m_alpha5; const Fac6 m_alpha6; const Fac7 m_alpha7; const Fac8 m_alpha8; const Fac9 m_alpha9; scale_sum9( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 , Fac5 alpha5 , Fac6 alpha6 , Fac7 alpha7 , Fac8 alpha8 , Fac9 alpha9 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) , m_alpha5( alpha5 ) , m_alpha6( alpha6 ) , m_alpha7( alpha7 ) , m_alpha8( alpha8 ) , m_alpha9( alpha9 ) { } template< class T1 , class T2 , class T3 , class T4 , class T5 , class T6 , class T7 , class T8 , class T9 , class T10 > void operator()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5 , const T6 &t6 , const T7 &t7 , const T8 &t8 , const T9 &t9 , const T10 &t10 ) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5 + m_alpha5 * t6 + m_alpha6 * t7 + m_alpha7 * t8 + m_alpha8 * t9 + m_alpha9 * t10; } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 , class Fac5 = Fac4 , class Fac6 = Fac5 , class Fac7 = Fac6 , class Fac8 = Fac7 , class Fac9 = Fac8 , class Fac10 = Fac9 > struct scale_sum10 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; const Fac5 m_alpha5; const Fac6 m_alpha6; const Fac7 m_alpha7; const Fac8 m_alpha8; const Fac9 m_alpha9; const Fac10 m_alpha10; scale_sum10( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 , Fac5 alpha5 , Fac6 alpha6 , Fac7 alpha7 , Fac8 alpha8 , Fac9 alpha9 , Fac10 alpha10 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) , m_alpha5( alpha5 ) , m_alpha6( alpha6 ) , m_alpha7( alpha7 ) , m_alpha8( alpha8 ) , m_alpha9( alpha9 ) , m_alpha10( alpha10 ) { } template< class T1 , class T2 , class T3 , class T4 , class T5 , class T6 , class T7 , class T8 , class T9 , class T10 , class T11 > void operator()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5 , const T6 &t6 , const T7 &t7 , const T8 &t8 , const T9 &t9 , const T10 &t10 , const T11 &t11 ) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5 + m_alpha5 * t6 + m_alpha6 * t7 + m_alpha7 * t8 + m_alpha8 * t9 + m_alpha9 * t10 + m_alpha10 * t11; } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 , class Fac5 = Fac4 , class Fac6 = Fac5 , class Fac7 = Fac6 , class Fac8 = Fac7 , class Fac9 = Fac8 , class Fac10 = Fac9 , class Fac11 = Fac10 > struct scale_sum11 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; const Fac5 m_alpha5; const Fac6 m_alpha6; const Fac7 m_alpha7; const Fac8 m_alpha8; const Fac9 m_alpha9; const Fac10 m_alpha10; const Fac11 m_alpha11; scale_sum11( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 , Fac5 alpha5 , Fac6 alpha6 , Fac7 alpha7 , Fac8 alpha8 , Fac9 alpha9 , Fac10 alpha10 , Fac11 alpha11 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) , m_alpha5( alpha5 ) , m_alpha6( alpha6 ) , m_alpha7( alpha7 ) , m_alpha8( alpha8 ) , m_alpha9( alpha9 ) , m_alpha10( alpha10 ) , m_alpha11( alpha11 ) { } template< class T1 , class T2 , class T3 , class T4 , class T5 , class T6 , class T7 , class T8 , class T9 , class T10 , class T11 , class T12 > void operator()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5 , const T6 &t6 , const T7 &t7 , const T8 &t8 , const T9 &t9 , const T10 &t10 , const T11 &t11 , const T12 &t12 ) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5 + m_alpha5 * t6 + m_alpha6 * t7 + m_alpha7 * t8 + m_alpha8 * t9 + m_alpha9 * t10 + m_alpha10 * t11 + m_alpha11 * t12; } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 , class Fac5 = Fac4 , class Fac6 = Fac5 , class Fac7 = Fac6 , class Fac8 = Fac7 , class Fac9 = Fac8 , class Fac10 = Fac9 , class Fac11 = Fac10 , class Fac12 = Fac11 > struct scale_sum12 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; const Fac5 m_alpha5; const Fac6 m_alpha6; const Fac7 m_alpha7; const Fac8 m_alpha8; const Fac9 m_alpha9; const Fac10 m_alpha10; const Fac11 m_alpha11; const Fac12 m_alpha12; scale_sum12( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 , Fac5 alpha5 , Fac6 alpha6 , Fac7 alpha7 , Fac8 alpha8 , Fac9 alpha9 , Fac10 alpha10 , Fac11 alpha11 , Fac12 alpha12 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) , m_alpha5( alpha5 ) , m_alpha6( alpha6 ) , m_alpha7( alpha7 ) , m_alpha8( alpha8 ) , m_alpha9( alpha9 ) , m_alpha10( alpha10 ) , m_alpha11( alpha11 ) , m_alpha12( alpha12 ) { } template< class T1 , class T2 , class T3 , class T4 , class T5 , class T6 , class T7 , class T8 , class T9 , class T10 , class T11 , class T12 , class T13 > void operator()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5 , const T6 &t6 , const T7 &t7 , const T8 &t8 , const T9 &t9 , const T10 &t10 , const T11 &t11 , const T12 &t12 , const T13 &t13 ) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5 + m_alpha5 * t6 + m_alpha6 * t7 + m_alpha7 * t8 + m_alpha8 * t9 + m_alpha9 * t10 + m_alpha10 * t11 + m_alpha11 * t12 + m_alpha12 * t13; } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 , class Fac5 = Fac4 , class Fac6 = Fac5 , class Fac7 = Fac6 , class Fac8 = Fac7 , class Fac9 = Fac8 , class Fac10 = Fac9 , class Fac11 = Fac10 , class Fac12 = Fac11 , class Fac13 = Fac12 > struct scale_sum13 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; const Fac5 m_alpha5; const Fac6 m_alpha6; const Fac7 m_alpha7; const Fac8 m_alpha8; const Fac9 m_alpha9; const Fac10 m_alpha10; const Fac11 m_alpha11; const Fac12 m_alpha12; const Fac13 m_alpha13; scale_sum13( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 , Fac5 alpha5 , Fac6 alpha6 , Fac7 alpha7 , Fac8 alpha8 , Fac9 alpha9 , Fac10 alpha10 , Fac11 alpha11 , Fac12 alpha12 , Fac13 alpha13 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) , m_alpha5( alpha5 ) , m_alpha6( alpha6 ) , m_alpha7( alpha7 ) , m_alpha8( alpha8 ) , m_alpha9( alpha9 ) , m_alpha10( alpha10 ) , m_alpha11( alpha11 ) , m_alpha12( alpha12 ) , m_alpha13( alpha13 ) { } template< class T1 , class T2 , class T3 , class T4 , class T5 , class T6 , class T7 , class T8 , class T9 , class T10 , class T11 , class T12 , class T13 , class T14 > void operator()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5 , const T6 &t6 , const T7 &t7 , const T8 &t8 , const T9 &t9 , const T10 &t10 , const T11 &t11 , const T12 &t12 , const T13 &t13 , const T14 &t14 ) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5 + m_alpha5 * t6 + m_alpha6 * t7 + m_alpha7 * t8 + m_alpha8 * t9 + m_alpha9 * t10 + m_alpha10 * t11 + m_alpha11 * t12 + m_alpha12 * t13 + m_alpha13 * t14; } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 , class Fac3 = Fac2 , class Fac4 = Fac3 , class Fac5 = Fac4 , class Fac6 = Fac5 , class Fac7 = Fac6 , class Fac8 = Fac7 , class Fac9 = Fac8 , class Fac10 = Fac9 , class Fac11 = Fac10 , class Fac12 = Fac11 , class Fac13 = Fac12 , class Fac14 = Fac13 > struct scale_sum14 { const Fac1 m_alpha1; const Fac2 m_alpha2; const Fac3 m_alpha3; const Fac4 m_alpha4; const Fac5 m_alpha5; const Fac6 m_alpha6; const Fac7 m_alpha7; const Fac8 m_alpha8; const Fac9 m_alpha9; const Fac10 m_alpha10; const Fac11 m_alpha11; const Fac12 m_alpha12; const Fac13 m_alpha13; const Fac14 m_alpha14; scale_sum14( Fac1 alpha1 , Fac2 alpha2 , Fac3 alpha3 , Fac4 alpha4 , Fac5 alpha5 , Fac6 alpha6 , Fac7 alpha7 , Fac8 alpha8 , Fac9 alpha9 , Fac10 alpha10 , Fac11 alpha11 , Fac12 alpha12 , Fac13 alpha13 , Fac14 alpha14 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) , m_alpha3( alpha3 ) , m_alpha4( alpha4 ) , m_alpha5( alpha5 ) , m_alpha6( alpha6 ) , m_alpha7( alpha7 ) , m_alpha8( alpha8 ) , m_alpha9( alpha9 ) , m_alpha10( alpha10 ) , m_alpha11( alpha11 ) , m_alpha12( alpha12 ) , m_alpha13( alpha13 ) , m_alpha14( alpha14 ) { } template< class T1 , class T2 , class T3 , class T4 , class T5 , class T6 , class T7 , class T8 , class T9 , class T10 , class T11 , class T12 , class T13 , class T14 , class T15 > void operator()( T1 &t1 , const T2 &t2 , const T3 &t3 , const T4 &t4 , const T5 &t5 , const T6 &t6 , const T7 &t7 , const T8 &t8 , const T9 &t9 , const T10 &t10 , const T11 &t11 , const T12 &t12 , const T13 &t13 , const T14 &t14 , const T15 &t15 ) const { t1 = m_alpha1 * t2 + m_alpha2 * t3 + m_alpha3 * t4 + m_alpha4 * t5 + m_alpha5 * t6 + m_alpha6 * t7 + m_alpha7 * t8 + m_alpha8 * t9 + m_alpha9 * t10 + m_alpha10 * t11 + m_alpha11 * t12 + m_alpha12 * t13 + m_alpha13 * t14 + m_alpha14 * t15; } typedef void result_type; }; template< class Fac1 = double , class Fac2 = Fac1 > struct scale_sum_swap2 { const Fac1 m_alpha1; const Fac2 m_alpha2; scale_sum_swap2( Fac1 alpha1 , Fac2 alpha2 ) : m_alpha1( alpha1 ) , m_alpha2( alpha2 ) { } template< class T1 , class T2 , class T3 > void operator()( T1 &t1 , T2 &t2 , const T3 &t3) const { const T1 tmp( t1 ); t1 = m_alpha1 * t2 + m_alpha2 * t3; t2 = tmp; } typedef void result_type; }; /* * for usage in for_each2 * * Works with boost::units by eliminating the unit */ template< class Fac1 = double > struct rel_error { const Fac1 m_eps_abs , m_eps_rel , m_a_x , m_a_dxdt; rel_error( Fac1 eps_abs , Fac1 eps_rel , Fac1 a_x , Fac1 a_dxdt ) : m_eps_abs( eps_abs ) , m_eps_rel( eps_rel ) , m_a_x( a_x ) , m_a_dxdt( a_dxdt ) { } template< class T1 , class T2 , class T3 > void operator()( T3 &t3 , const T1 &t1 , const T2 &t2 ) const { using std::abs; set_unit_value( t3 , abs( get_unit_value( t3 ) ) / ( m_eps_abs + m_eps_rel * ( m_a_x * abs( get_unit_value( t1 ) ) + m_a_dxdt * abs( get_unit_value( t2 ) ) ) ) ); } typedef void result_type; }; /* * for usage in for_each3 * * used in the controller for the rosenbrock4 method * * Works with boost::units by eliminating the unit */ template< class Fac1 = double > struct default_rel_error { const Fac1 m_eps_abs , m_eps_rel ; default_rel_error( Fac1 eps_abs , Fac1 eps_rel ) : m_eps_abs( eps_abs ) , m_eps_rel( eps_rel ) { } /* * xerr = xerr / ( eps_abs + eps_rel * max( x , x_old ) ) */ template< class T1 , class T2 , class T3 > void operator()( T3 &t3 , const T1 &t1 , const T2 &t2 ) const { BOOST_USING_STD_MAX(); using std::abs; Fac1 x1 = abs( get_unit_value( t1 ) ) , x2 = abs( get_unit_value( t2 ) ); set_unit_value( t3 , abs( get_unit_value( t3 ) ) / ( m_eps_abs + m_eps_rel * max BOOST_PREVENT_MACRO_SUBSTITUTION ( x1 , x2 ) ) ); } typedef void result_type; }; /* * for usage in reduce */ template< class Value > struct maximum { template< class Fac1 , class Fac2 > Value operator()( Fac1 t1 , const Fac2 t2 ) const { using std::abs; Value a1 = abs( get_unit_value( t1 ) ) , a2 = abs( get_unit_value( t2 ) ); return ( a1 < a2 ) ? a2 : a1 ; } typedef Value result_type; }; template< class Fac1 = double > struct rel_error_max { const Fac1 m_eps_abs , m_eps_rel; rel_error_max( Fac1 eps_abs , Fac1 eps_rel ) : m_eps_abs( eps_abs ) , m_eps_rel( eps_rel ) { } template< class Res , class T1 , class T2 , class T3 > Res operator()( Res r , const T1 &x_old , const T2 &x , const T3 &x_err ) { BOOST_USING_STD_MAX(); using std::abs; Res tmp = abs( get_unit_value( x_err ) ) / ( m_eps_abs + m_eps_rel * max BOOST_PREVENT_MACRO_SUBSTITUTION ( abs( x_old ) , abs( x ) ) ); return max BOOST_PREVENT_MACRO_SUBSTITUTION ( r , tmp ); } }; template< class Fac1 = double > struct rel_error_max2 { const Fac1 m_eps_abs , m_eps_rel , m_a_x , m_a_dxdt; rel_error_max2( Fac1 eps_abs , Fac1 eps_rel , Fac1 a_x , Fac1 a_dxdt ) : m_eps_abs( eps_abs ) , m_eps_rel( eps_rel ) , m_a_x( a_x ) , m_a_dxdt( a_dxdt ) { } template< class Res , class T1 , class T2 , class T3 , class T4 > Res operator()( Res r , const T1 &x_old , const T2 &/*x*/ , const T3 &dxdt_old , const T4 &x_err ) { BOOST_USING_STD_MAX(); using std::abs; Res tmp = abs( get_unit_value( x_err ) ) / ( m_eps_abs + m_eps_rel * ( m_a_x * abs( get_unit_value( x_old ) ) + m_a_dxdt * abs( get_unit_value( dxdt_old ) ) ) ); return max BOOST_PREVENT_MACRO_SUBSTITUTION ( r , tmp ); } }; template< class Fac1 = double > struct rel_error_l2 { const Fac1 m_eps_abs , m_eps_rel; rel_error_l2( Fac1 eps_abs , Fac1 eps_rel ) : m_eps_abs( eps_abs ) , m_eps_rel( eps_rel ) { } template< class Res , class T1 , class T2 , class T3 > Res operator()( Res r , const T1 &x_old , const T2 &x , const T3 &x_err ) { BOOST_USING_STD_MAX(); using std::abs; Res tmp = abs( get_unit_value( x_err ) ) / ( m_eps_abs + m_eps_rel * max BOOST_PREVENT_MACRO_SUBSTITUTION ( abs( x_old ) , abs( x ) ) ); return r + tmp * tmp; } }; template< class Fac1 = double > struct rel_error_l2_2 { const Fac1 m_eps_abs , m_eps_rel , m_a_x , m_a_dxdt; rel_error_l2_2( Fac1 eps_abs , Fac1 eps_rel , Fac1 a_x , Fac1 a_dxdt ) : m_eps_abs( eps_abs ) , m_eps_rel( eps_rel ) , m_a_x( a_x ) , m_a_dxdt( a_dxdt ) { } template< class Res , class T1 , class T2 , class T3 , class T4 > Res operator()( Res r , const T1 &x_old , const T2 &/*x*/ , const T3 &dxdt_old , const T4 &x_err ) { using std::abs; Res tmp = abs( get_unit_value( x_err ) ) / ( m_eps_abs + m_eps_rel * ( m_a_x * abs( get_unit_value( x_old ) ) + m_a_dxdt * abs( get_unit_value( dxdt_old ) ) ) ); return r + tmp * tmp; } }; }; } // odeint } // numeric } // boost #endif // BOOST_NUMERIC_ODEINT_ALGEBRA_DEFAULT_OPERATIONS_HPP_INCLUDED