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原始文件 (936 × 989像素,文件大小:19 KB,MIME类型:image/png


Transferred from en.wikipedia to Commons by Maksim.

The original description page was here. All following user names refer to en.wikipedia.

摘要

Made by myself with matlab.

许可协议

Public domain 我,本作品著作权人,释出本作品至公有领域。这适用于全世界。
在一些国家这可能不合法;如果是这样的话,那么:
我无条件地授予任何人以任何目的使用本作品的权利,除非这些条件是法律规定所必需的。
 
本PNG 位图使用MATLAB创作.

Matlab source code

function main()

% prepare the screen
figure(1); clf; hold on; axis equal;  axis off; 
linewidth=2;

x=[0, 0.7, 0.5 1, 0]+2; y=[0, 0, 0.5, 1 0.8];
do_plot(x, y, linewidth);

theta=pi/3; A=[cos(theta) -sin(theta); sin(theta) cos(theta)];
for i=1:length(x)
  v= A*[x(i); y(i)]; x(i)=v(1); y(i)=v(2); 
end
do_plot(x, y, linewidth);

red=[1 0 0]; ball_radius=0.025;
x=2.1; y=0.5; plot([0 x], [0, y], 'color', red, 'linewidth', linewidth);
ball(x, y, ball_radius, red);

v= A*[x; y]; x=v(1); y=v(2); plot([0 x], [0, y], 'color', red, 'linewidth', linewidth);
ball(x, y, ball_radius, red);
ball(0, 0, ball_radius, red);

x=1.1*1.9681; y=1.1*0.9548; r=sqrt(x^2+y^2); thetas=atan2(y, x);
thetae=pi/6.2+thetas;
Theta=thetas:0.01:thetae; X=r*cos(Theta); Y=r*sin(Theta); plot(X, Y, 'linewidth', linewidth)
n=length(Theta);

arrow([X(n-1), Y(n-1)], [2*X(n)-X(n-1), 2*Y(n)-Y(n-1)], linewidth, 10, pi/6, 2, [0, 0, 1])
   
saveas(gcf, 'rotation_illustration.eps', 'psc2') 

function do_plot(x, y, linewidth)
 n=length(x); 
 P=5; Q=n+2*P+1; % P will denote the amount of overlap

% Make the 'periodic' sequence xp=[x(1) x(2) x(3) ... x(n) x(1) x(2) x(3) ... ]
% of length Q. Same for yp.
for i=1:Q
   j=rem(i, n)+1; % rem() is the remainder of division of i by n
   xp(i)=x(j);
   yp(i)=y(j);
end

% do the spline interpolation
t=1:length(xp);
N=100; % how fine to make the interpolation
tt=1:(1/N):length(xp);
xx=spline(t, xp, tt);
yy=spline(t, yp, tt);

% discard the redundant pieces
start=N*(P-1)+1;
stop=N*(n+P-1)+1;
xx=xx(start:stop); 
yy=yy(start:stop);

lightblue=[176,196,222]/256;
H=fill(xx, yy, lightblue);

set(H, 'linewidth', 0.001, 'edgecolor', lightblue);

function arrow(start, stop, thickness, arrowsize, sharpness, arrow_type, color)

   
%  draw a line with an arrow at the end
%  start is the x,y point where the line starts
%  stop is the x,y point where the line stops
%  thickness is an optional parameter giving the thickness of the lines   
%  arrowsize is an optional argument that will give the size of the arrow 
%  It is assumed that the axis limits are already set
%  0 < sharpness < pi/4 determines how sharp to make the arrow
%  arrow_type draws the arrow in different styles. Values are 0, 1, 2, 3.
   
%       8/4/93    Jeffery Faneuff
%       Copyright (c) 1988-93 by the MathWorks, Inc.
%       Modified by Oleg Alexandrov 2/16/03

   
   if nargin <=6
      color=[0, 0, 0];
   end
   
   if (nargin <=5)
      arrow_type=0;   % the default arrow, it looks like this: ->
   end
   
   if (nargin <=4)
      sharpness=pi/4; % the arrow sharpness - default = pi/4
   end

   if nargin<=3
      xl = get(gca,'xlim');
      yl = get(gca,'ylim');
      xd = xl(2)-xl(1);            
      yd = yl(2)-yl(1);            
      arrowsize = (xd + yd) / 2;   % this sets the default arrow size
   end

   if (nargin<=2)
      thickness=0.5; % default thickness
   end
   
   
   xdif = stop(1) - start(1);
   ydif = stop(2) - start(2);

   if (xdif == 0)
      if (ydif >0) 
	 theta=pi/2;
      else
	 theta=-pi/2;
      end
   else
      theta = atan(ydif/xdif);  % the angle has to point according to the slope
   end

   if(xdif>=0)
      arrowsize = -arrowsize;
   end

   if (arrow_type == 0) % draw the arrow like two sticks originating from its vertex
      xx = [start(1), stop(1),(stop(1)+0.02*arrowsize*cos(theta+sharpness)),NaN,stop(1),...
	    (stop(1)+0.02*arrowsize*cos(theta-sharpness))];
      yy = [start(2), stop(2), (stop(2)+0.02*arrowsize*sin(theta+sharpness)),NaN,stop(2),...
	    (stop(2)+0.02*arrowsize*sin(theta-sharpness))];
      plot(xx,yy, 'LineWidth', thickness, 'color', color)
   end

   if (arrow_type == 1)  % draw the arrow like an empty triangle
      xx = [stop(1),(stop(1)+0.02*arrowsize*cos(theta+sharpness)), ...
	    stop(1)+0.02*arrowsize*cos(theta-sharpness)];
      xx=[xx xx(1) xx(2)];
      
      yy = [stop(2),(stop(2)+0.02*arrowsize*sin(theta+sharpness)), ...
	    stop(2)+0.02*arrowsize*sin(theta-sharpness)];
      yy=[yy yy(1) yy(2)];

      plot(xx,yy, 'LineWidth', thickness, 'color', color)
      
%     plot the arrow stick
      plot([start(1) stop(1)+0.02*arrowsize*cos(theta)*cos(sharpness)], [start(2), stop(2)+ ...
		    0.02*arrowsize*sin(theta)*cos(sharpness)], 'LineWidth', thickness, 'color', color)
      
   end
   
   if (arrow_type==2) % draw the arrow like a full triangle
      xx = [stop(1),(stop(1)+0.02*arrowsize*cos(theta+sharpness)), ...
	    stop(1)+0.02*arrowsize*cos(theta-sharpness),stop(1)];
      
      yy = [stop(2),(stop(2)+0.02*arrowsize*sin(theta+sharpness)), ...
	    stop(2)+0.02*arrowsize*sin(theta-sharpness),stop(2)];
      
%     plot the arrow stick
      plot([start(1) stop(1)+0.01*arrowsize*cos(theta)], [start(2), stop(2)+ ...
		    0.01*arrowsize*sin(theta)], 'LineWidth', thickness, 'color', color)
      H=fill(xx, yy, color);% fill with black
      set(H, 'EdgeColor', 'none')

   end

   if (arrow_type==3) % draw the arrow like a filled 'curvilinear' triangle
      curvature=0.5; % change here to make the curved part more curved (or less curved)
      radius=0.02*arrowsize*max(curvature, tan(sharpness));
      x1=stop(1)+0.02*arrowsize*cos(theta+sharpness);
      y1=stop(2)+0.02*arrowsize*sin(theta+sharpness);
      x2=stop(1)+0.02*arrowsize*cos(theta)*cos(sharpness);
      y2=stop(2)+0.02*arrowsize*sin(theta)*cos(sharpness);
      d1=sqrt((x1-x2)^2+(y1-y2)^2);
      d2=sqrt(radius^2-d1^2);
      d3=sqrt((stop(1)-x2)^2+(stop(2)-y2)^2);
      center(1)=stop(1)+(d2+d3)*cos(theta);
      center(2)=stop(2)+(d2+d3)*sin(theta);

      alpha=atan(d1/d2);
      Alpha=-alpha:0.05:alpha;
      xx=center(1)-radius*cos(Alpha+theta);
      yy=center(2)-radius*sin(Alpha+theta);
      xx=[xx stop(1) xx(1)];
      yy=[yy stop(2) yy(1)];

%     plot the arrow stick
      plot([start(1) center(1)-radius*cos(theta)], [start(2), center(2)- ...
		    radius*sin(theta)], 'LineWidth', thickness, 'color', color);

      H=fill(xx, yy, color);% fill with black
      set(H, 'EdgeColor', 'none')

   end
date/time username edit summary
00:36, 22 November 2005 en:User:Oleg Alexandrov (+source code)
14:06, 3 November 2005 en:User:Oleg Alexandrov (Made by myself with matlab.)

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当前2007年6月6日 (三) 03:312007年6月6日 (三) 03:31版本的缩略图936 × 989(19 KB)Oleg Alexandrov{{Information |Description=Made by myself with matlab. |Source=Originally from [http://en.wikipedia.org en.wikipedia]; description page is/was [http://en.wikipedia.org/w/index.php?title=Image%3ARotation_illustration.png here]. |Date=2005-11-03 (first ver
2006年1月29日 (日) 10:062006年1月29日 (日) 10:06版本的缩略图936 × 989(19 KB)MaksimLa bildo estas kopiita de wikipedia:en. La originala priskribo estas: == Summary == Made by myself with matlab. == Licensing == {{PD-self}} ==Source code (very messy)== <pre> <nowiki> function main() % prepare the screen figure(1); clf; hold on; axis

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