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In Curve: Rearranged for speed. arc_length_fun is now a property of Curve. If it is not supplied, it is computed via the derivative and spline fitting. Switching to the arc length parameterization is much faster now. The new stuff can be tested with testArcLength.m (which should be deleted after that).
author Martin Almquist <martin.almquist@it.uu.se>
date Sun, 29 Nov 2015 22:23:09 +0100
parents ed6a704b028d
children 8f22829b69d0 77e9f0a85862
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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)
        m % Number of points in each direction, possibly a vector
        order % Order accuracy for the approximation

        % vectors u,v,w depending on dim that gives were gridpoints are in each dimension
        % vectors x,y,z containing the x,y,z values corresponding to each grid point
        % matrices X,Y,Z with point coordinates as multi dimensional vectors

        D % non-stabalized scheme operator
        H % Discrete norm

        % Should also containg:
        % the grid points used
        % the grid spacing
    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.
        %       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.
        %       data                is a function returning the data that should be applied at the boundary.
        %       neighbour_scheme    is an instance of Scheme that should be interfaced to.
        %       neighbour_boundary  is a string specifying which boundary to interface to.
        m = boundary_condition(obj,boundary,type,data)
        m = interface(obj,boundary,neighbour_scheme,neighbour_boundary)
        N = size(obj) % Returns the number of degrees of freedom.

    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_couplong(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