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view +scheme/Scheme.m @ 774:66eb4a2bbb72 feature/grids

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Remove default scaling of the system. The scaling doens't seem to help actual solutions. One example that fails in the flexural code. With large timesteps the solutions seems to blow up. One particular example is profilePresentation on the tdb_presentation_figures branch with k = 0.0005
author Jonatan Werpers <jonatan@werpers.com>
date Wed, 18 Jul 2018 15:42:52 -0700
parents 12ee11893453
children 459eeb99130f
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% Start with all matrix returns. When that works see how we should generalize
% to non-matrix stuff/nonlinear
classdef Scheme < handle
    properties (Abstract)
        order % Order accuracy for the approximation

        grid

        D % non-stabalized scheme operator
        H % Discrete norm
    end

    methods (Abstract)
        % Closure functions return the opertors applied to the own doamin to
        % close the boundary Penalty functions return the opertors to force
        % the solution. In the case of an interface it returns the operator
        % applied to the other doamin. In some cases the penalty return value
        % can be ommited and the closure function take care of both parts.
        %       boundary            is a string specifying the boundary e.g.
        %                           'l','r' or 'e','w','n','s'.
        %       type                is a string specifying the type of
        %                           boundary condition if there are several.
        %       neighbour_scheme    is an instance of Scheme that should be
        %                           interfaced to.
        %       neighbour_boundary  is a string specifying which boundary to
        %                           interface to.
        %       penalty  may be a cell array if there are several penalties with different weights
        [closure, penalty] = boundary_condition(obj,boundary,type) % TODO: Change name to boundaryCondition
        [closure, penalty] = interface(obj,boundary,neighbour_scheme,neighbour_boundary)

        % TODO: op = getBoundaryOperator()??
        %   makes sense to have it available through a method instead of random properties

        % Returns the number of degrees of freedom.
        N = size(obj)
    end

    methods(Static)
        % Calculates the matrcis need for the inteface coupling between
        % boundary bound_u of scheme schm_u and bound_v of scheme schm_v.
        %   [uu, uv, vv, vu] = inteface_coupling(A,'r',B,'l')
        function [uu, uv, vv, vu] = interface_coupling(schm_u,bound_u,schm_v,bound_v)
            [uu,uv] = schm_u.interface(bound_u,schm_v,bound_v);
            [vv,vu] = schm_v.interface(bound_v,schm_u,bound_u);
        end
    end
end