/*
 [auto_generated]
 libs/numeric/odeint/test/stepper_with_units.cpp

 [begin_description]
 This file tests if the steppers play well with Boost.Units.
 [end_description]

 Copyright 2011-2012 Karsten Ahnert
 Copyright 2011-2013 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)
 */

#define BOOST_TEST_MODULE odeint_stepper_with_units

// the runge-kutta 78 stepper invoked with boost units requires increased fusion macro variables!
// note that by default the rk78 + units test case is disabled as it requires enormous memory when compiling (5 GB)
#define BOOST_FUSION_INVOKE_MAX_ARITY 15
#define BOOST_RESULT_OF_NUM_ARGS 15


#include <boost/numeric/odeint/config.hpp>

#include <boost/test/unit_test.hpp>

#include <boost/units/systems/si/length.hpp>
#include <boost/units/systems/si/time.hpp>
#include <boost/units/systems/si/velocity.hpp>
#include <boost/units/systems/si/acceleration.hpp>
#include <boost/units/systems/si/io.hpp>

#include <boost/fusion/container.hpp>
#include <boost/mpl/vector.hpp>

#include <boost/numeric/odeint/stepper/euler.hpp>
#include <boost/numeric/odeint/stepper/runge_kutta4.hpp>
#include <boost/numeric/odeint/stepper/runge_kutta4_classic.hpp>
#include <boost/numeric/odeint/stepper/runge_kutta_cash_karp54.hpp>
#include <boost/numeric/odeint/stepper/runge_kutta_cash_karp54_classic.hpp>
#include <boost/numeric/odeint/stepper/runge_kutta_dopri5.hpp>
#include <boost/numeric/odeint/stepper/runge_kutta_fehlberg78.hpp>
#include <boost/numeric/odeint/stepper/controlled_runge_kutta.hpp>
#include <boost/numeric/odeint/stepper/dense_output_runge_kutta.hpp>
#include <boost/numeric/odeint/stepper/bulirsch_stoer.hpp>
#include <boost/numeric/odeint/stepper/bulirsch_stoer_dense_out.hpp>
#include <boost/numeric/odeint/algebra/fusion_algebra.hpp>
#include <boost/numeric/odeint/algebra/fusion_algebra_dispatcher.hpp>


using namespace boost::numeric::odeint;
using namespace boost::unit_test;
namespace mpl = boost::mpl;
namespace fusion = boost::fusion;
namespace units = boost::units;
namespace si = boost::units::si;

typedef double value_type;
typedef units::quantity< si::time , value_type > time_type;
typedef units::quantity< si::length , value_type > length_type;
typedef units::quantity< si::velocity , value_type > velocity_type;
typedef units::quantity< si::acceleration , value_type > acceleration_type;
typedef fusion::vector< length_type , velocity_type > state_type;
typedef fusion::vector< velocity_type , acceleration_type > deriv_type;

void oscillator( const state_type &x , deriv_type &dxdt , time_type t )
{
    const units::quantity< si::frequency , value_type > omega = 1.0 * si::hertz;
    fusion::at_c< 0 >( dxdt ) = fusion::at_c< 1 >( x );
    fusion::at_c< 1 >( dxdt ) = - omega * omega * fusion::at_c< 0 >( x );
}

template< class Stepper >
void check_stepper( Stepper &stepper )
{
    typedef Stepper stepper_type;
    typedef typename stepper_type::state_type state_type;
    typedef typename stepper_type::value_type value_type;
    typedef typename stepper_type::deriv_type deriv_type;
    typedef typename stepper_type::time_type time_type;
    typedef typename stepper_type::order_type order_type;
    typedef typename stepper_type::algebra_type algebra_type;
    typedef typename stepper_type::operations_type operations_type;

    const time_type t( 0.0 * si::second );
    time_type dt( 0.1 * si::second );
    state_type x( 1.0 * si::meter , 0.0 * si::meter_per_second );

    // test call method one
    stepper.do_step( oscillator , x , t , dt );

    // test call method two
    stepper.do_step( oscillator , x , t , x , dt );

    // test call method three
    deriv_type dxdt;
    oscillator( x , dxdt , t );
    stepper.do_step( oscillator , x , dxdt , t , dt );

    // test call method four
    oscillator( x , dxdt , t );
    stepper.do_step( oscillator , x , dxdt , t , x , dt );
}

template< class Stepper >
void check_fsal_stepper( Stepper &stepper )
{
    typedef Stepper stepper_type;
    typedef typename stepper_type::state_type state_type;
    typedef typename stepper_type::value_type value_type;
    typedef typename stepper_type::deriv_type deriv_type;
    typedef typename stepper_type::time_type time_type;
    typedef typename stepper_type::order_type order_type;
    typedef typename stepper_type::algebra_type algebra_type;
    typedef typename stepper_type::operations_type operations_type;

    const time_type t( 0.0 * si::second );
    time_type dt( 0.1 * si::second );
    state_type x( 1.0 * si::meter , 0.0 * si::meter_per_second );

    // test call method one
    stepper.do_step( oscillator , x , t , dt );

    // test call method two
    stepper.do_step( oscillator , x , t , x , dt );

    // test call method three
    deriv_type dxdt;
    oscillator( x , dxdt , t );
    stepper.do_step( oscillator , x , dxdt , t , dt );

    // test call method four
    stepper.do_step( oscillator , x , dxdt , t , x , dxdt , dt );
}

template< class Stepper >
void check_error_stepper( Stepper &stepper )
{
    typedef Stepper stepper_type;
    typedef typename stepper_type::state_type state_type;
    typedef typename stepper_type::value_type value_type;
    typedef typename stepper_type::deriv_type deriv_type;
    typedef typename stepper_type::time_type time_type;
    typedef typename stepper_type::order_type order_type;
    typedef typename stepper_type::algebra_type algebra_type;
    typedef typename stepper_type::operations_type operations_type;

    const time_type t( 0.0 * si::second );
    time_type dt( 0.1 * si::second );
    state_type x( 1.0 * si::meter , 0.0 * si::meter_per_second ) , xerr;

    // test call method one
    stepper.do_step( oscillator , x , t , dt , xerr );

    // test call method two
    stepper.do_step( oscillator , x , t , x , dt , xerr );

    // test call method three
    deriv_type dxdt;
    oscillator( x , dxdt , t );
    stepper.do_step( oscillator , x , dxdt , t , dt , xerr );

    // test call method four
    stepper.do_step( oscillator , x , dxdt , t , x , dt , xerr );
}

template< class Stepper >
void check_fsal_error_stepper( Stepper &stepper )
{
    typedef Stepper stepper_type;
    typedef typename stepper_type::state_type state_type;
    typedef typename stepper_type::value_type value_type;
    typedef typename stepper_type::deriv_type deriv_type;
    typedef typename stepper_type::time_type time_type;
    typedef typename stepper_type::order_type order_type;
    typedef typename stepper_type::algebra_type algebra_type;
    typedef typename stepper_type::operations_type operations_type;

    const time_type t( 0.0 * si::second );
    time_type dt( 0.1 * si::second );
    state_type x( 1.0 * si::meter , 0.0 * si::meter_per_second ) , xerr;

    // test call method one
    stepper.do_step( oscillator , x , t , dt , xerr );

    // test call method two
    stepper.do_step( oscillator , x , t , x , dt , xerr );

    // test call method three
    deriv_type dxdt;
    oscillator( x , dxdt , t );
    stepper.do_step( oscillator , x , dxdt , t , dt , xerr );

    // test call method four
    stepper.do_step( oscillator , x , dxdt , t , x , dxdt , dt , xerr );
}

template< class Stepper >
void check_controlled_stepper( Stepper &stepper )
{
    typedef Stepper stepper_type;
    typedef typename stepper_type::state_type state_type;
    typedef typename stepper_type::value_type value_type;
    typedef typename stepper_type::deriv_type deriv_type;
    typedef typename stepper_type::time_type time_type;

    time_type t( 0.0 * si::second );
    time_type dt( 0.1 * si::second );
    state_type x( 1.0 * si::meter , 0.0 * si::meter_per_second );

    // test call method one
    stepper.try_step( oscillator , x , t , dt );
}


template< class Stepper >
void check_dense_output_stepper( Stepper &stepper )
{
    typedef Stepper stepper_type;
    typedef typename stepper_type::state_type state_type;
    typedef typename stepper_type::value_type value_type;
    typedef typename stepper_type::deriv_type deriv_type;
    typedef typename stepper_type::time_type time_type;
//    typedef typename stepper_type::order_type order_type;

    time_type t( 0.0 * si::second );
    time_type dt( 0.1 * si::second );
    state_type x( 1.0 * si::meter , 0.0 * si::meter_per_second ) , x2;

    stepper.initialize( x , t , dt );
    stepper.do_step( oscillator );
    stepper.calc_state( dt / 2.0 , x2 );
}






class stepper_types : public mpl::vector
<
    euler< state_type , value_type , deriv_type , time_type >,
    runge_kutta4< state_type , value_type , deriv_type , time_type > ,
    runge_kutta4_classic< state_type , value_type , deriv_type , time_type > ,
    runge_kutta_cash_karp54< state_type , value_type , deriv_type , time_type >,
    runge_kutta_cash_karp54_classic< state_type , value_type , deriv_type , time_type >
    // don't run rk78 test - gcc requires > 5GB RAM to compile this
    //, runge_kutta_fehlberg78< state_type , value_type , deriv_type , time_type >
    > { };

class fsal_stepper_types : public mpl::vector
<
    runge_kutta_dopri5< state_type , value_type , deriv_type , time_type >
    > { };

class error_stepper_types : public mpl::vector
<
    runge_kutta_cash_karp54_classic< state_type , value_type , deriv_type , time_type >
    //, runge_kutta_fehlberg78< state_type , value_type , deriv_type , time_type >
    > { };

class fsal_error_stepper_types : public mpl::vector
<
    runge_kutta_dopri5< state_type , value_type , deriv_type , time_type >
    > { };

class controlled_stepper_types : public mpl::vector
<
    controlled_runge_kutta< runge_kutta_cash_karp54_classic< state_type , value_type , deriv_type , time_type > > ,
    controlled_runge_kutta< runge_kutta_dopri5< state_type , value_type , deriv_type , time_type > >
    , bulirsch_stoer< state_type , value_type , deriv_type , time_type >
    // rk78 with units needs up to 3GB memory to compile - disable testing...
    //, controlled_runge_kutta< runge_kutta_fehlberg78< state_type , value_type , deriv_type , time_type > >
    > { };

class dense_output_stepper_types : public mpl::vector
<
    dense_output_runge_kutta< euler< state_type , value_type , deriv_type , time_type > > ,
    dense_output_runge_kutta<
        controlled_runge_kutta< runge_kutta_dopri5< state_type , value_type , deriv_type , time_type > > >
    //, bulirsch_stoer_dense_out< state_type , value_type , deriv_type , time_type >
    > { };




BOOST_AUTO_TEST_SUITE( stepper_with_units )

BOOST_AUTO_TEST_CASE_TEMPLATE( stepper_test , Stepper , stepper_types )
{
    Stepper stepper;
    check_stepper( stepper );
}

BOOST_AUTO_TEST_CASE_TEMPLATE( fsl_stepper_test , Stepper , fsal_stepper_types )
{
    Stepper stepper;
    check_fsal_stepper( stepper );
}

BOOST_AUTO_TEST_CASE_TEMPLATE( error_stepper_test , Stepper , error_stepper_types )
{
    Stepper stepper;
    check_error_stepper( stepper );
}

BOOST_AUTO_TEST_CASE_TEMPLATE( fsal_error_stepper_test , Stepper , fsal_error_stepper_types )
{
    Stepper stepper;
    check_fsal_error_stepper( stepper );
}

BOOST_AUTO_TEST_CASE_TEMPLATE( controlled_stepper_test , Stepper , controlled_stepper_types )
{
    Stepper stepper;
    check_controlled_stepper( stepper );
}

BOOST_AUTO_TEST_CASE_TEMPLATE( dense_ouput_test , Stepper , dense_output_stepper_types )
{
    Stepper stepper;
    check_dense_output_stepper( stepper );
}


BOOST_AUTO_TEST_SUITE_END()