Mercurial > repos > public > sbplib

view +time/Rungekutta4SecondOrder.m @ 1198:2924b3a9b921 feature/d2_compatible

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Add OpSet for fully compatible D2Variable, created from regular D2Variable by replacing d1 by first row of D1. Formal reduction by one order of accuracy at the boundary point.
author Martin Almquist <malmquist@stanford.edu>
date Fri, 16 Aug 2019 14:30:28 -0700
parents ae905a11e32c
children c6fcee3fcf1b 8894e9c49e40 74eec7e69b63
line wrap: on
line source

classdef Rungekutta4SecondOrder < time.Timestepper
    properties
        F
        k
        t
        w
        m
        D
        E
        S
        M
        C
        n
    end


    methods
        % Solves u_tt = Du + Eu_t + S by
        % Rewriting on first order form:
        %   w_t = M*w + C(t)
        % where
        %   M = [
        %      0, I;
        %      D, E;
        %   ]
        % and
        %   C(t) = [
        %      0;
        %      S(t)
        %   ]
        % D, E, S can either all be constants or all be function handles,
        % They can also be omitted by setting them equal to the empty matrix.
        function obj = Rungekutta4SecondOrder(D, E, S, k, t0, v0, v0t)
            obj.D = D;
            obj.E = E;
            obj.S = S;
            obj.m = length(v0);
            obj.n = 0;


            if isa(D, 'function_handle') || isa(E, 'function_handle') || isa(S, 'function_handle')
                default_arg('D', @(t)sparse(obj.m, obj.m));
                default_arg('E', @(t)sparse(obj.m, obj.m));
                default_arg('S', @(t)sparse(obj.m, 1)    );

                if ~isa(D, 'function_handle')
                    D = @(t)D;
                end
                if ~isa(E, 'function_handle')
                    E = @(t)E;
                end
                if ~isa(S, 'function_handle')
                    S = @(t)S;
                end

                obj.k = k;
                obj.t = t0;
                obj.w = [v0; v0t];

                % Avoid matrix formulation because it is VERY slow
                obj.F = @(w,t)[
                    w(obj.m+1:end);
                    D(t)*w(1:obj.m) + E(t)*w(obj.m+1:end) + S(t);
                ];
            else

                default_arg('D', sparse(obj.m, obj.m));
                default_arg('E', sparse(obj.m, obj.m));
                default_arg('S', sparse(obj.m, 1)    );

                I = speye(obj.m);
                O = sparse(obj.m,obj.m);

                obj.M = [
                    O, I;
                    D, E;
                ];
                obj.C = [
                    zeros(obj.m,1);
                                 S;
                ];

                obj.k = k;
                obj.t = t0;
                obj.w = [v0; v0t];

                obj.F = @(w,t)(obj.M*w + obj.C);
            end
        end

        function [v,t] = getV(obj)
            v = obj.w(1:end/2);
            t = obj.t;
        end

        function [vt,t] = getVt(obj)
            vt = obj.w(end/2+1:end);
            t = obj.t;
        end

        function obj = step(obj)
            obj.w = time.rk4.rungekutta_4(obj.w, obj.t, obj.k, obj.F);
            obj.t = obj.t + obj.k;
            obj.n = obj.n + 1;
        end
    end


    methods (Static)
        function k = getTimeStep(lambda)
            k = rk4.get_rk4_time_step(lambda);
        end
    end

end