www.gusucode.com > 实现边缘连接和线段拟合源码MATLAB实现源码程序 > Edgelink_/selectseg.m
% SELECTSEG - Interactive selection of linesegments with mouse.
%
% Usage: segs = selectseg(seglist);
%
% seglist - an Nx4 array storing line segments in the form
% [x1 y1 x2 y2
% x1 y1 x2 y2
% . . ] etc
%
%
% See also: EDGELINK, LINESEG, MAXLINEDEV, MERGESEG
%
% Copyright (c) 2000-2005 Peter Kovesi
% School of Computer Science & Software Engineering
% The University of Western Australia
% http://www.csse.uwa.edu.au/
%
% Permission is hereby granted, free of charge, to any person obtaining a copy
% of this software and associated documentation files (the "Software"), to deal
% in the Software without restriction, subject to the following conditions:
%
% The above copyright notice and this permission notice shall be included in
% all copies or substantial portions of the Software.
%
% The Software is provided "as is", without warranty of any kind.
% December 2000
function segs = selectseg(seglist);
segs = [];
selectedSegs = [NaN];
figure(1), clf, drawseg(seglist,1);
Nseg = size(seglist,1);
fprintf('Select segments by clicking with the left mouse button\n');
fprintf('Last segment is indicated by clicking with any other mouse button\n');
count = 0;
but = 1;
while but==1 & count < Nseg
[xp,yp,but] = ginput(1); % Get digitised point
count = count + 1;
rmin = Inf;
for s = 1:Nseg
r = segdist(xp,yp,seglist(s,:));
% if distance is closest so far and segment is not already
% selected...
if r < rmin & ~any(selectedSegs==s)
rmin = r;
closestseg = seglist(s,:);
smin = s;
end
end
segs = [segs; closestseg]; % Build up list of segments
selectedSegs = [selectedSegs smin]; % Remeber selected seg Nos
line([closestseg(1) closestseg(3)], [closestseg(2) closestseg(4)], ...
'Color',[1 0 0]);
text((closestseg(1)+closestseg(3))/2, ...
(closestseg(2)+closestseg(4))/2, sprintf('%d',count));
end
function r = segdist(xp,yp,seg)
% Function returns distance from point (xp,yp) to line defined by end
% points (x1,y1) (x2,y2)
%
%
% Eqn of line joining end pts (x1 y1) and (x2 y2) can be parameterised by
%
% x*(y1-y2) + y*(x2-x1) + y2*x1 - y1*x2 = 0
%
% (See Jain, Rangachar and Schunck, "Machine Vision", McGraw-Hill
% 1996. pp 194-196)
x1=seg(1);y1=seg(2);
x2=seg(3);y2=seg(4);
y1my2 = y1-y2; % Pre-compute parameters
x2mx1 = x2-x1;
C = y2*x1 - y1*x2;
D = norm([x1 y1] - [x2 y2]); % Distance between end points
r = abs(xp*y1my2 + yp*x2mx1 + C)/D; % Perp. distance from line to (xp,yp)
% Correct the distance if (xp,yp) is `outside' the ends of the segment
d1 = [xp yp]-[x1 y1];
d2 = [xp yp]-[x2 y2];
if dot(d1,d2) > 0 % (xp,yp) is not `between' the end points of the
% segment
r = min(norm(d1),norm(d2)); % return distance to closest end
% point
end