Mercurial > hg > camir-aes2014
view toolboxes/graph_visualisation/lib/lefty/fractal.lefty @ 0:e9a9cd732c1e tip
first hg version after svn
author | wolffd |
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date | Tue, 10 Feb 2015 15:05:51 +0000 |
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load ('def.lefty'); definit (); # # initialize window data # canvas = defcanvas; wrect = [0 = ['x' = 0; 'y' = 0;]; 1 = ['x' = 400; 'y' = 500;];]; setwidgetattr (canvas, ['window' = wrect;]); sq = function (x) { return x * x; }; # data structures # length = 300; center = ['x' = 200; 'y' = 250;]; radius = 2 * length / sqrt (12); fractalangle = 0; maxlevel = 2; # drawing functions # # draw a Koch curve (a ``snowflake'' fractal) # # start with a triangle and keep replacing edges # with the construct: _/\_ # until the recursion level reaches 'maxlevel' # fractal = function (level, length, angle) { local nlength, newpenpos; if (level >= maxlevel) { newpenpos.x = penpos.x + length * cos (angle); newpenpos.y = penpos.y + length * sin (angle); line (canvas, null, penpos, newpenpos, ['color' = 1;]); penpos = newpenpos; return; } nlength = length / 3; fractal (level + 1, nlength, angle); fractal (level + 1, nlength, angle + 60); fractal (level + 1, nlength, angle - 60); fractal (level + 1, nlength, angle); }; drawfractal = function () { clear (canvas); setpick (canvas, center, wrect); penpos = [ 'x' = center.x + cos (fractalangle + 210) * radius; 'y' = center.y + sin (fractalangle + 210) * radius; ]; fractal (0, length, fractalangle + 60); fractal (0, length, fractalangle - 60); fractal (0, length, fractalangle - 180); remove ('penpos'); }; # editing functions # # transform the fractal. # # map point 'prevpoint' to point 'currpoint' # with respect to the center of the fractal. # transformfractal = function (prevpoint, currpoint) { local prevtan, currtan, prevradius, currradius; prevtan = atan (prevpoint.y - center.y, prevpoint.x - center.x); currtan = atan (currpoint.y - center.y, currpoint.x - center.x); fractalangle = fractalangle + (currtan - prevtan); prevradius = sqrt ( sq (prevpoint.y - center.y) + sq (prevpoint.x - center.x) ); currradius = sqrt ( sq (currpoint.y - center.y) + sq (currpoint.x - center.x) ); radius = radius / prevradius * currradius; length = radius / 2 * sqrt (12); }; # user interface functions # # bind changes to the fractal to user actions # leftup = function (data) { transformfractal (data.ppos, data.pos); drawfractal (); }; dops = function () { local s; s = ['x' = 8 * 300; 'y' = 10.5 * 300;]; canvas = createwidget (-1, ['type' = 'ps'; 'size' = s;]); setwidgetattr (canvas, ['window' = wrect;]); drawfractal (); destroywidget (canvas); canvas=defcanvas; }; transformfractal (['x' = 0; 'y' = 0;], ['x' = 0; 'y' = 0;]); drawfractal ();