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boost::numeric::odeint::rosenbrock4_dense_output
// In header: <boost/numeric/odeint/stepper/rosenbrock4_dense_output.hpp> template<typename ControlledStepper> class rosenbrock4_dense_output { public: // types typedef ControlledStepper controlled_stepper_type; typedef controlled_stepper_type::stepper_type stepper_type; typedef stepper_type::value_type value_type; typedef stepper_type::state_type state_type; typedef stepper_type::wrapped_state_type wrapped_state_type; typedef stepper_type::time_type time_type; typedef stepper_type::deriv_type deriv_type; typedef stepper_type::wrapped_deriv_type wrapped_deriv_type; typedef stepper_type::resizer_type resizer_type; typedef dense_output_stepper_tag stepper_category; typedef rosenbrock4_dense_output< ControlledStepper > dense_output_stepper_type; // construct/copy/destruct rosenbrock4_dense_output(const controlled_stepper_type & = controlled_stepper_type()); // public member functions template<typename StateType> void initialize(const StateType &, time_type, time_type); template<typename System> std::pair< time_type, time_type > do_step(System); template<typename StateOut> void calc_state(time_type, StateOut &); template<typename StateOut> void calc_state(time_type, const StateOut &); template<typename StateType> void adjust_size(const StateType &); const state_type & current_state(void) const; time_type current_time(void) const; const state_type & previous_state(void) const; time_type previous_time(void) const; time_type current_time_step(void) const; // private member functions state_type & get_current_state(void); const state_type & get_current_state(void) const; state_type & get_old_state(void); const state_type & get_old_state(void) const; void toggle_current_state(void); template<typename StateIn> bool resize_impl(const StateIn &); };
rosenbrock4_dense_output
public member functionstemplate<typename StateType> void initialize(const StateType & x0, time_type t0, time_type dt0);
template<typename System> std::pair< time_type, time_type > do_step(System system);
template<typename StateOut> void calc_state(time_type t, StateOut & x);
template<typename StateOut> void calc_state(time_type t, const StateOut & x);
template<typename StateType> void adjust_size(const StateType & x);
const state_type & current_state(void) const;
time_type current_time(void) const;
const state_type & previous_state(void) const;
time_type previous_time(void) const;
time_type current_time_step(void) const;