[/============================================================================ Boost.odeint Copyright 2011-2012 Karsten Ahnert Copyright 2011 Mario Mulansky Copyright 2012 Sylwester Arabas Use, modification and distribution is subject to 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) =============================================================================/] [section Stepper] This concepts specifies the interface a simple stepper has to fulfill to be used within the __integrate_functions. [heading Description] The basic stepper concept. A basic stepper following this Stepper concept is able to perform a single step of the solution /x(t)/ of an ODE to obtain /x(t+dt)/ using a given step size /dt/. Basic steppers can be Runge-Kutta steppers, symplectic steppers as well as implicit steppers. Depending on the actual stepper, the ODE is defined as __system, __symplectic_system, __simple_symplectic_system or __implicit_system. Note that all error steppers are also basic steppers. [heading Refinement of] * DefaultConstructable * CopyConstructable [heading Associated types] * '''<para>'''[*state_type]'''</para>''' '''<para>'''`Stepper::state_type`'''</para>''' '''<para>'''The type characterizing the state of the ODE, hence ['x].'''</para>''' * '''<para>'''[*deriv_type]'''</para>''' '''<para>'''`Stepper::deriv_type`'''</para>''' '''<para>'''The type characterizing the derivative of the ODE, hence ['d x/dt].'''</para>''' * '''<para>'''[*time_type]'''</para>''' '''<para>'''`Stepper::time_type`'''</para>''' '''<para>'''The type characterizing the dependent variable of the ODE, hence the time ['t].'''</para>''' * '''<para>'''[*value_type]'''</para>''' '''<para>'''`Stepper::value_type`'''</para>''' '''<para>'''The numerical data type which is used within the stepper, something like `float`, `double`, `complex< double >`.'''</para>''' * '''<para>'''[*order_type]'''</para>''' '''<para>'''`Stepper::order_type`'''</para>''' '''<para>'''The type characterizing the order of the ODE, typically `unsigned short`.'''</para>''' * '''<para>'''[*stepper_category]'''</para>''' '''<para>'''`Stepper::stepper_category`'''</para>''' '''<para>'''A tag type characterizing the category of the stepper. This type must be convertible to `stepper_tag`.'''</para>''' [heading Notation] [variablelist [[`Stepper`] [A type that is a model of Stepper]] [[`State`] [A type representing the state /x/ of the ODE]] [[`Time`] [A type representing the time /t/ of the ODE]] [[`stepper`] [An object of type `Stepper`]] [[`x`] [Object of type `State`]] [[`t`, `dt`] [Objects of type `Time`]] [[`sys`] [An object defining the ODE. Depending on the Stepper this might be a model of __system, __symplectic_system, __simple_symplectic_system or __implicit_system ]] ] [heading Valid Expressions] [table [[Name] [Expression] [Type] [Semantics]] [[Get the order] [`stepper.order()`] [`order_type`] [Returns the order of the stepper.]] [[Do step] [`stepper.do_step( sys , x , t , dt )`] [`void`] [Performs one step of step size `dt`. The newly obtained state is written in place in `x`.] ] [/ [Do step with reference] [`stepper.do_step( boost::ref(sys) , x , t , dt )`] [`void`] [Performs one step of step size `dt`. The newly obtained state is written in place in `x`.] ] [/ [Do step out-of-place] [`stepper.do_step( sys , in , t , out , dt )`] [`void`] [Performs one step. The newly obtained state is written to `out`] ] ] [heading Models] * `runge_kutta4` * `euler` * `runge_kutta_cash_karp54` * `runge_kutta_dopri5` * `runge_kutta_fehlberg78` * `modified_midpoint` * `rosenbrock4` [endsect]