gusucode.com > 遗传算法 gaot工具箱matlab源码程序 > code_rar/gaot/enhancederXover.m
function [c1,c2]=enhancederXover(p1,p2,bounds,ops)
% EnhancederXover crossover takes two parents P1,P2 and performs
% enhanced edge recombination crossover on permutation strings.
%
% function [c1,c2] = enhancederXover(p1,p2,bounds,Ops)
% p1 - the first parent ( [solution string function value] )
% p2 - the second parent ( [solution string function value] )
% bounds - the bounds matrix for the solution space
% Ops - Options matrix for simple crossover [gen #SimpXovers].
% Binary and Real-Valued Simulation Evolution for Matlab
% Copyright (C) 1996 C.R. Houck, J.A. Joines, M.G. Kay
%
% C.R. Houck, J.Joines, and M.Kay. A genetic algorithm for function
% optimization: A Matlab implementation. ACM Transactions on Mathmatical
% Software, Submitted 1996.
%
% This program is free software; you can redistribute it and/or modify
% it under the terms of the GNU General Public License as published by
% the Free Software Foundation; either version 1, or (at your option)
% any later version.
%
% This program is distributed in the hope that it will be useful,
% but WITHOUT ANY WARRANTY; without even the implied warranty of
% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
% GNU General Public License for more details. A copy of the GNU
% General Public License can be obtained from the
% Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
sz=size(p1,2);
right=[2:sz 1];
left =[sz 1:(sz-1)];
p1i(p1)=1:10; %Generate index
p2i(p2)=1:10; %Generate index
adj=sort([-1:-1:-sz;p1(right(p1i));p1(left(p1i));p2(right(p2i));p2(left(p2i))])';
repeats=find(diff(adj(:,2:5)')'==0);
adj(repeats+sz)=zeros(size(repeats)); %Zero repeat
adj(repeats+2*sz)=-1*adj(repeats+2*sz); %Leftover is negative
curr_site = round(rand*sz + 0.5); %Pick random start site
for site=1:(sz-1)
c1(site)=curr_site;
inAdj=find(abs(adj(:,2:5))==curr_site); %Find this site in adjacency table
adj(inAdj+sz)=zeros(size(inAdj)); %Take this out of the adjacency table
%Find the element with fewest remaining links
lz=colperm(adj');
lzi(lz)=1:size(lz,2); %create index
adj_cities=adj(curr_site,1+(find(adj(curr_site,2:5))));
if(prod(sign(adj_cities))==-1) %One negative city
i=find(adj_cities<0);
else
[v i]=min(lzi(abs(adj_cities)));
end
curr_site=abs(adj_cities(i));
end
c1(sz)=curr_site;
c2=p1;