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view +time/Rk4SecondOrderNonlin.m @ 1198:2924b3a9b921 feature/d2_compatible
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 | cd2e28c5ecd2 |
| children | b5e5b195da1e c6fcee3fcf1b |
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classdef Rk4SecondOrderNonlin < time.Timestepper properties F k t w m D E S n end methods function obj = Rk4SecondOrderNonlin(D, E, S, k, t0, v0, v0t) default_arg('S',0); default_arg('E',0); if isnumeric(S) S = @(v,t)S; end if isnumeric(E) E = @(v)E; end obj.k = k; obj.t = t0; obj.w = [v0; v0t]; m = length(v0); function wt = F(w,t) v = w(1:m); vt = w(m+1:end); % Def: w = [v; vt] wt(1:m,1) = vt; wt(m+1:2*m,1) = D(v)*v + E(v)*vt + S(v,t); end obj.F = @F; obj.D = D; obj.E = E; obj.S = S; obj.m = m; obj.n = 0; 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