File:Triple torus illustration.png

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Description Illustration of a triple torus
Date (UTC)
Source Own work, MATLAB source code below
 
This diagram was created with MATLAB.
Author Oleg Alexandrov
Public domain I, the copyright holder of this work, release this work into the public domain. This applies worldwide.
In some countries this may not be legally possible; if so:
I grant anyone the right to use this work for any purpose, without any conditions, unless such conditions are required by law.

Source code (MATLAB)

function main()

  % illustration of a triple torus
   
   % torus radii 
   r = 1;
   R = 3;
   
   Kb = R+r;
   Ks = R-r;

   % Km controls the smoothness of the transition from one ring to the others
   Km = 0.5125*Kb;

   L = 2.5*(r+R);

   h = 0.2; % grid size
   
   X = (-L):h:L; m = length(X);
   Y = (-L):h:L; n = length(Y);
   Z = (-1.1*r):h:(1.1*r); k = length(Z);

   W = zeros(m, n, k);

   for i=1:length(X)
      for j=1:length(Y)
         x = X(i);
         y = Y(j);
         
         [x, y] = triple_torus_function (x, y, r, R, Kb, Km);
         val = (sqrt(x^2+y^2)-R)^2-r^2;
         W(i, j, :) = val + Z.^2;

      end
   end

   figure(1); clf; hold on;
   axis equal; axis off;

   light_green=[184, 224, 98]/256; % light green

   H = patch(isosurface(X, Y, Z, W, 0));
   isonormals(X, Y, Z, W, H);
   mycolor = light_green;

   set(H, 'FaceColor', mycolor, 'EdgeColor','none', 'FaceAlpha', 1);
   set(H, 'SpecularColorReflectance', 0.1, 'DiffuseStrength', 0.8);
   set(H, 'FaceLighting', 'phong', 'AmbientStrength', 0.3);
   set(H, 'SpecularExponent', 108);

   daspect([1 1 1]);
   axis tight;
   colormap(prism(28))
   view(-12, 40);

   % add in a source of light
   camlight (-50, 54); lighting phong;

   print('-dpng', '-r400',  ...
         sprintf('Triple_torus_illustration.png'));
   

function [x, y] = triple_torus_function (x, y, r, R, Kb, Km)

% a deformation in the plane, which, when comosed with a torus will give
% a triple torus   
   
% center of one of the torii
   O = [-Kb, -Kb/sqrt(3)]; 
   
   angle = 2*pi/3;
   Mat = [ cos(angle)  -sin(angle); sin(angle)   cos(angle)  ];
   
   p =[x, y]';
   phi = atan2(y, x);
   
   if phi >= pi/6 & phi <= 5*pi/6
      p = Mat*p; % rotate 120 degree counterclockwise
   elseif phi >= -pi/2 & phi < pi/6
      p = Mat*p; p = Mat*p; % rotate 240 degrees counterclockwise
   end
   
   x=p(1); y = p(2);
   
% reflect against a line, to merge two cases in one
   if y > x/sqrt(3)
      
      p = [x, y];
      v = [cos(2*pi/3), sin(2*pi/3)];
      
      p = p - 2*v*dot(p, v)/dot(v, v);
      x = p(1); y = p(2);
      
   end
   
   if x > O(1)
      
% project to the y axis, to a point B
      if y < O(2)
         
         A = [O(1), y];
         B = [0, y];
      else

         A = O;

         p = [x, y];
         rho = norm(p-O);

         B = O+(Kb/rho)*(p-O);
         
%         t = -O(1)/(x-O(1));
%         B = [0, O(2)+t*(y-O(2))];
         
      end
      
      p = [x, y];
      
      d=norm(p-A);
      q = norm(B-A);
      
      d = my_map(d, q, Km);
      p = (d/q)*B+(1-d/q)*A;
      x=p(1); y=p(2);
      
   end
   
% shift towards the origin
   x = x-O(1);
   y = y-O(2);

function y = my_map(x, Kb, Km)
   
   if x > Kb
      y = Km + 1;
   elseif x < Km
      y = x;
   else
      y = Km+sin((pi/2)*(x-Km)/(Kb-Km));
   end

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depicts

7 September 2007

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Date/TimeThumbnailDimensionsUserComment
current04:01, 1 July 2008Thumbnail for version as of 04:01, 1 July 20082,204 × 1,550 (670 KB)wikimediacommons>Oleg Alexandrovchange viewing angle

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