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/*
[auto_generated]
boost/numeric/odeint/stepper/detail/generic_rk_call_algebra.hpp
[begin_description]
Algebra caller for the generic Runge-Kutta methods.
[end_description]
Copyright 2011-2012 Mario Mulansky
Copyright 2011-2012 Karsten Ahnert
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_STEPPER_DETAIL_GENERIC_RK_CALL_ALGEBRA_HPP_INCLUDED
#define BOOST_NUMERIC_ODEINT_STEPPER_DETAIL_GENERIC_RK_CALL_ALGEBRA_HPP_INCLUDED
namespace boost {
namespace numeric {
namespace odeint {
namespace detail {
template< size_t StageNumber , class Algebra >
struct generic_rk_call_algebra;
template< class Algebra >
struct generic_rk_call_algebra< 1 , Algebra >
{
typedef Algebra algebra_type;
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( algebra_type &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 * /* s4_array */ , Op op ) const
{
algebra.for_each3( s1 , s2 , s3 , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( algebra_type &algebra , S1 &s1 , S2 &s2 , S4 * /* s4_array */ , Op op ) const
{
algebra.for_each2( s1 , s2 , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 2 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[1] , Op op ) const
{
algebra.for_each4( s1 , s2 , s3 , s4_array[0].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[1] , Op op ) const
{
algebra.for_each3( s1 , s2 , s4_array[0].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 3 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[2] , Op op ) const
{
algebra.for_each5( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[2] , Op op ) const
{
algebra.for_each4( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 4 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[3] , Op op ) const
{
algebra.for_each6( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[3] , Op op ) const
{
algebra.for_each5( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 5 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[4] , Op op ) const
{
algebra.for_each7( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[4] , Op op ) const
{
algebra.for_each6( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 6 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[5] , Op op ) const
{
algebra.for_each8( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[5] , Op op ) const
{
algebra.for_each7( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 7 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[6] , Op op ) const
{
algebra.for_each9( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[6] , Op op ) const
{
algebra.for_each8( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 8 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[7] , Op op ) const
{
algebra.for_each10( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[7] , Op op ) const
{
algebra.for_each9( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 9 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[8] , Op op ) const
{
algebra.for_each11( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , s4_array[7].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[8] , Op op ) const
{
algebra.for_each10( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , s4_array[7].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 10 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[9] , Op op ) const
{
algebra.for_each12( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , s4_array[7].m_v , s4_array[8].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[9] , Op op ) const
{
algebra.for_each11( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , s4_array[7].m_v , s4_array[8].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 11 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[10] , Op op ) const
{
algebra.for_each13( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , s4_array[7].m_v , s4_array[8].m_v , s4_array[9].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[10] , Op op ) const
{
algebra.for_each12( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , s4_array[7].m_v , s4_array[8].m_v , s4_array[9].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 12 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[11] , Op op ) const
{
algebra.for_each14( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , s4_array[7].m_v , s4_array[8].m_v , s4_array[9].m_v , s4_array[10].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[11] , Op op ) const
{
algebra.for_each13( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , s4_array[7].m_v , s4_array[8].m_v , s4_array[9].m_v , s4_array[10].m_v , op );
}
};
template< class Algebra >
struct generic_rk_call_algebra< 13 , Algebra >
{
template< class S1 , class S2 , class S3 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S3 &s3 , S4 s4_array[12] , Op op ) const
{
algebra.for_each15( s1 , s2 , s3 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , s4_array[7].m_v , s4_array[8].m_v , s4_array[9].m_v , s4_array[10].m_v , s4_array[11].m_v , op );
}
template< class S1 , class S2 , class S4 , class Op>
void operator()( Algebra &algebra , S1 &s1 , S2 &s2 , S4 s4_array[12] , Op op ) const
{
algebra.for_each14( s1 , s2 , s4_array[0].m_v , s4_array[1].m_v , s4_array[2].m_v , s4_array[3].m_v , s4_array[4].m_v ,
s4_array[5].m_v , s4_array[6].m_v , s4_array[7].m_v , s4_array[8].m_v , s4_array[9].m_v , s4_array[10].m_v , s4_array[11].m_v , op );
}
};
}
}
}
}
#endif // BOOST_NUMERIC_ODEINT_STEPPER_DETAIL_GENERIC_RK_CALL_ALGEBRA_HPP_INCLUDED
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