boost/numeric/odeint/integrate/check_adapter.hpp
/* [auto_generated] boost/numeric/odeint/integrate/check_adapter.hpp [begin_description] Adapters to add checking facility to stepper and observer [end_description] Copyright 2015 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_INTEGRATE_CHECK_ADAPTER_HPP_INCLUDED #define BOOST_NUMERIC_ODEINT_INTEGRATE_CHECK_ADAPTER_HPP_INCLUDED #include <boost/numeric/odeint/stepper/stepper_categories.hpp> #include <boost/numeric/odeint/stepper/controlled_step_result.hpp> namespace boost { namespace numeric { namespace odeint { template<class Stepper, class Checker, class StepperCategory = typename base_tag<typename Stepper::stepper_category>::type> class checked_stepper; /** * \brief Adapter to combine basic stepper and checker. */ template<class Stepper, class Checker> class checked_stepper<Stepper, Checker, stepper_tag> { public: typedef Stepper stepper_type; typedef Checker checker_type; // forward stepper typedefs 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; private: stepper_type &m_stepper; checker_type &m_checker; public: /** * \brief Construct the checked_stepper. */ checked_stepper(stepper_type &stepper, checker_type &checker) : m_stepper(stepper), m_checker(checker) { } /** * \brief forward of the do_step method */ template<class System, class StateInOut> void do_step(System system, StateInOut &state, const time_type t, const time_type dt) { // do the step m_stepper.do_step(system, state, t, dt); // call the checker m_checker(); } }; /** * \brief Adapter to combine controlled stepper and checker. */ template<class ControlledStepper, class Checker> class checked_stepper<ControlledStepper, Checker, controlled_stepper_tag> { public: typedef ControlledStepper stepper_type; typedef Checker checker_type; // forward stepper typedefs 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; private: stepper_type &m_stepper; checker_type &m_checker; public: /** * \brief Construct the checked_stepper. */ checked_stepper(stepper_type &stepper, checker_type &checker) : m_stepper(stepper), m_checker(checker) { } /** * \brief forward of the do_step method */ template< class System , class StateInOut > controlled_step_result try_step( System system , StateInOut &state , time_type &t , time_type &dt ) { // do the step if( m_stepper.try_step(system, state, t, dt) == success ) { // call the checker if step was successful m_checker(); return success; } else { // step failed -> return fail return fail; } } }; /** * \brief Adapter to combine dense out stepper and checker. */ template<class DenseOutStepper, class Checker> class checked_stepper<DenseOutStepper, Checker, dense_output_stepper_tag> { public: typedef DenseOutStepper stepper_type; typedef Checker checker_type; // forward stepper typedefs 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; private: stepper_type &m_stepper; checker_type &m_checker; public: /** * \brief Construct the checked_stepper. */ checked_stepper(stepper_type &stepper, checker_type &checker) : m_stepper(stepper), m_checker(checker) { } template< class System > std::pair< time_type , time_type > do_step( System system ) { m_checker(); return m_stepper.do_step(system); } /* provide the remaining dense out stepper interface */ template< class StateType > void initialize( const StateType &x0 , time_type t0 , time_type dt0 ) { m_stepper.initialize(x0, t0, dt0); } template< class StateOut > void calc_state( time_type t , StateOut &x ) const { m_stepper.calc_state(t, x); } template< class StateOut > void calc_state( time_type t , const StateOut &x ) const { m_stepper.calc_state(t, x); } const state_type& current_state( void ) const { return m_stepper.current_state(); } time_type current_time( void ) const { return m_stepper.current_time(); } const state_type& previous_state( void ) const { return m_stepper.previous_state(); } time_type previous_time( void ) const { return m_stepper.previous_time(); } time_type current_time_step( void ) const { return m_stepper.current_time_step(); } }; /** * \brief Adapter to combine observer and checker. */ template<class Observer, class Checker> class checked_observer { public: typedef Observer observer_type; typedef Checker checker_type; private: observer_type &m_observer; checker_type &m_checker; public: checked_observer(observer_type &observer, checker_type &checker) : m_observer(observer), m_checker(checker) {} template< class State , class Time > void operator()(const State& state, Time t) const { // call the observer m_observer(state, t); // reset the checker m_checker.reset(); } }; } // namespace odeint } // namespace numeric } // namespace boost #endif