view toolboxes/FullBNT-1.0.7/GraphViz/Old/draw_graph.m @ 0:e9a9cd732c1e tip

first hg version after svn
author wolffd
date Tue, 10 Feb 2015 15:05:51 +0000
parents
children
line wrap: on
line source
function [x, y, h] = draw_graph(adj, labels, node_t, x, y)
% DRAW_LAYOUT		Draws a layout for a graph 
%
%  [<X, Y>] = DRAW_LAYOUT(ADJ, <LABELS, ISBOX, X, Y>)
%
% Inputs :
%	ADJ : Adjacency matrix (source, sink)
%       LABELS : Cell array containing labels <Default : '1':'N'>
%       ISBOX : 1 if node is a box, 0 if oval <Default : zeros>
%       X, Y, : Coordinates of nodes on the unit square <Default : calls make_layout>
%
% Outputs :
%	X, Y : Coordinates of nodes on the unit square
%       H    : Object handles 
%
% Usage Example : [x, y] = draw_layout([0 1;0 0], {'Hidden','Visible'}, [1 0]');
%
% h(i,1) is the text handle - color
% h(i,2) is the circle handle - facecolor
%
% Note	:
% See also MAKE_LAYOUT

% Uses :

% Change History :
% Date		Time		Prog	Note
% 13-Apr-2000	 9:06 PM	ATC	Created under MATLAB 5.3.1.29215a (R11.1)

% ATC = Ali Taylan Cemgil,
% SNN - University of Nijmegen, Department of Medical Physics and Biophysics
% e-mail : cemgil@mbfys.kun.nl 
adj = double(adj);
N = size(adj,1);
if nargin<2,
%  labels = cellstr(char(zeros(N,1)+double('+')));
  labels = cellstr(int2str((1:N)'));
end;

if nargin<3,
  node_t = zeros(N,1);
%  node_t = rand(N,1) > 0.5;
else
  node_t = node_t(:);
end;
  
axis([0 1 0 1]);
set(gca,'XTick',[],'YTick',[],'box','on');
% axis('square');
%colormap(flipud(gray));

if nargin<4,
  [x y] = make_layout(adj);
end;

idx1 = find(node_t==0); wd1=[];
if ~isempty(idx1),
[h1 wd1] = textoval(x(idx1), y(idx1), labels(idx1));
end;

idx2 = find(node_t~=0); wd2 = [];
if ~isempty(idx2),
[h2 wd2] = textbox(x(idx2), y(idx2), labels(idx2));
end;

wd = zeros(size(wd1,1)+size(wd2,1),2);
if ~isempty(idx1), wd(idx1, :) = wd1;  end;
if ~isempty(idx2), wd(idx2, :) = wd2; end;

for i=1:N,
  j = find(adj(i,:)==1);
  for k=j,
    if x(k)-x(i)==0,
	sign = 1;
	if y(i)>y(k), alpha = -pi/2; else alpha = pi/2; end;
    else
	alpha = atan((y(k)-y(i))/(x(k)-x(i)));
	if x(i)<x(k), sign = 1; else sign = -1; end;
    end;
    dy1 = sign.*wd(i,2).*sin(alpha);   dx1 = sign.*wd(i,1).*cos(alpha);
    dy2 = sign.*wd(k,2).*sin(alpha);   dx2 = sign.*wd(k,1).*cos(alpha);    
    if adj(k,i)==0, % if directed edge
      arrow([x(i)+dx1 y(i)+dy1],[x(k)-dx2 y(k)-dy2]);
    else	   
      line([x(i)+dx1 x(k)-dx2],[y(i)+dy1 y(k)-dy2],'color','k');
      adj(k,i)=-1; % Prevent drawing lines twice
    end;
  end;
end;

if nargout>2,
  h = zeros(length(wd),2);
  if ~isempty(idx1),
    h(idx1,:) = h1;
  end;
  if ~isempty(idx2),
    h(idx2,:) = h2;
  end;
end;

%%%%%

function [t, wd] = textoval(x, y, str)
% TEXTOVAL		Draws an oval around text objects
% 
%  [T, WIDTH] = TEXTOVAL(X, Y, STR)
%  [..] = TEXTOVAL(STR)  % Interactive
% 
% Inputs :
%    X, Y : Coordinates
%    TXT  : Strings
% 
% Outputs :
%    T : Object Handles
%    WIDTH : x and y Width of ovals 
%
% Usage Example : [t] = textoval('Visit to Asia?');
% 
% 
% Note     :
% See also TEXTBOX

% Uses :

% Change History :
% Date		Time		Prog	Note
% 15-Jun-1998	10:36 AM	ATC	Created under MATLAB 5.1.0.421

% ATC = Ali Taylan Cemgil,
% SNN - University of Nijmegen, Department of Medical Physics and Biophysics
% e-mail : cemgil@mbfys.kun.nl 

temp = [];

switch nargin,
  case 1,
    str = x;
    if ~isa(str,'cell') str=cellstr(str); end;
    N = length(str);
    wd = zeros(N,2);
    for i=1:N,
      [x, y] = ginput(1);
      tx = text(x,y,str{i},'HorizontalAlignment','center','VerticalAlign','middle');
      [ptc wx wy] = draw_oval(tx, x, y);
      wd(i,:) = [wx wy];
      delete(tx);      
      tx = text(x,y,str{i},'HorizontalAlignment','center','VerticalAlign','middle');
      temp = [temp ; tx ptc];
    end;
  case 3,
    if ~isa(str,'cell') str=cellstr(str); end;
    N = length(str);    
    wd = zeros(N,2);
    for i=1:N,
      tx = text(x(i),y(i),str{i},'HorizontalAlignment','center','VerticalAlign','middle');
     [ptc wx wy] = draw_oval(tx, x(i), y(i));
      wd(i,:) = [wx wy];
      delete(tx);
      tx = text(x(i),y(i),str{i},'HorizontalAlignment','center','VerticalAlign','middle');      
      temp = [temp;  tx ptc];
    end;
  otherwise,
end;  

if nargout>0, t = temp; end;

%%%%%%%%%


function [ptc, wx, wy] = draw_oval(tx, x, y)
% Draws an oval box around a tex object
sz = get(tx,'Extent');
wy = sz(4);
wx = max(2/3*sz(3), wy); 
wx = 0.5*wx; % KPM
wy = 0.5*wy;
ptc = ellipse(x, y, wx, wy);
set(ptc, 'FaceColor','w');


%%%%%%%%%%%%%

function [p] = ellipse(x, y, rx, ry, c)
% ELLIPSE		Draws Ellipse shaped patch objects
% 
%  [<P>] = ELLIPSE(X, Y, Rx, Ry, C)
% 
% Inputs :
%    X : N x 1 vector of x coordinates
%    Y : N x 1 vector of y coordinates
%    Rx, Ry : Radii
%    C : Color index
%
% 
% Outputs :
%    P = Handles of Ellipse shaped path objects
% 
% Usage Example : [] = ellipse();
% 
% 
% Note     :
% See also 

% Uses :

% Change History :
% Date		Time		Prog	Note
% 27-May-1998	 9:55 AM	ATC	Created under MATLAB 5.1.0.421

% ATC = Ali Taylan Cemgil,
% SNN - University of Nijmegen, Department of Medical Physics and Biophysics
% e-mail : cemgil@mbfys.kun.nl 

if (nargin < 2) error('Usage Example : e = ellipse([0 1],[0 -1],[1 0.5],[2 0.5]); '); end;
if (nargin < 3) rx = 0.1; end;
if (nargin < 4) ry = rx; end;
if (nargin < 5) c = 1; end;

if length(c)==1, c = ones(size(x)).*c; end;
if length(rx)==1, rx = ones(size(x)).*rx; end;
if length(ry)==1, ry = ones(size(x)).*ry; end;
  
n = length(x);
p = zeros(size(x));
t = 0:pi/30:2*pi;
for i=1:n,
	px = rx(i)*cos(t)+x(i);
	py = ry(i)*sin(t)+y(i);
	p(i) = patch(px,py,c(i));
end;

if nargout>0, pp = p; end;

%%%%%

function [t, wd] = textbox(x,y,str)
% TEXTBOX	Draws A Box around the text 
% 
%  [T, WIDTH] = TEXTBOX(X, Y, STR)
%  [..] = TEXTBOX(STR)
% 
% Inputs :
%    X, Y : Coordinates
%    TXT  : Strings
% 
% Outputs :
%    T : Object Handles
%    WIDTH : x and y Width of boxes 
%% 
% Usage Example : t = textbox({'Ali','Veli','49','50'});
% 
% 
% Note     :
% See also TEXTOVAL

% Uses :

% Change History :
% Date		Time		Prog	Note
% 09-Jun-1998	11:43 AM	ATC	Created under MATLAB 5.1.0.421

% ATC = Ali Taylan Cemgil,
% SNN - University of Nijmegen, Department of Medical Physics and Biophysics
% e-mail : cemgil@mbfys.kun.nl 

% See
temp = [];

switch nargin,
  case 1,
    str = x;
    if ~isa(str,'cell') str=cellstr(str); end;
    N = length(str);  
    wd = zeros(N,2);
    for i=1:N,
      [x, y] = ginput(1);
      tx = text(x,y,str{i},'HorizontalAlignment','center','VerticalAlign','middle');
      [ptc wx wy] = draw_box(tx, x, y); 
      wd(i,:) = [wx wy];
      delete(tx);
      tx = text(x,y,str{i},'HorizontalAlignment','center','VerticalAlign','middle');      
      temp = [temp; tx ptc];
    end;
  case 3,
    if ~isa(str,'cell') str=cellstr(str); end;    
    N = length(str);
    for i=1:N,
      tx = text(x(i),y(i),str{i},'HorizontalAlignment','center','VerticalAlign','middle');
      [ptc wx wy] = draw_box(tx, x(i), y(i));
      wd(i,:) = [wx wy];
      delete(tx);
      tx = text(x(i),y(i),str{i},'HorizontalAlignment','center','VerticalAlign','middle');      
      temp = [temp; tx ptc];
    end;
     
  otherwise,

end;  

if nargout>0, t = temp; end;


function [ptc, wx, wy] = draw_box(tx, x, y)
% Draws a box around a tex object
      sz = get(tx,'Extent');
      wy = 2/3*sz(4);
      wx = max(2/3*sz(3), wy);
      ptc = patch([x-wx x+wx x+wx x-wx], [y+wy y+wy y-wy y-wy],'w');
      set(ptc, 'FaceColor','w');