function xyOut = solver(a, xyIn, wts)
deg=diag(sum(a));
[V,~]=eig(deg-a,deg);
N = length(a);
[p1i,p2i] = find( triu(a,1));
[pickr,pickc] = find(tril(true(nnz(triu(a,1))),-1));
for d=1:3
[xy{d} xy{d+3}] = solver_alfonsoz (a, d+1, N, V+rand(size(V))/25); % (Biswas)
end
[xy{7} xy{8}] = solver_alfonsoz (a, 1, N, V);
xy{9} = solver_hannes(xyIn, N, V(:,2:3),0);
parfor d=1:9
NN(d)=gradeIt(p1i,p2i,pickr,pickc,xy{d})
end
[ZBest,best] = min(NN);
xyOut = xy{best};
xyOut = bsxfun(@minus,xyOut,round(wts*(xyOut-xyIn)./sum(wts)));
sprev = rng(0,'twister');
for ii=1:2
for jiggle=1:14
xyOutZ=xyOut+randi([-ii ii],N,2);
grade=gradeIt(p1i,p2i,pickr,pickc,xyOutZ);
if grade<ZBest && size(unique(xyOutZ,'rows'),1)==N
xyOut=xyOutZ;
ZBest=grade;
end
end
end
rng(sprev);
end
function [xyOut xyOut1] = solver_alfonsoz(a, d, N, V)
randn('seed',d);
xyOut=V(:,2:3);
sN=sqrt(N);
for ncut=1:2
Mbeta=((1-d/15)*eye(N)+(d/15)*bsxfun(@rdivide,a+eye(N),sum(a,2)+1))^10;
for n1=1:(117+d)
xyOut=Mbeta*xyOut;
xc = bsxfun(@minus,xyOut,sum(xyOut)/N);
[c1,D]=svd(xc');
xyOut=xc*c1*diag(sN./(.1+D([1 4])))*c1';
end
[i,j]=find(a>0.0075+d*5.1e-4);
dd=sum((xyOut(i,:)-xyOut(j,:)).^2,2);
k=find(dd>(3.15 + d*0.102)*mean(dd));
if isempty(k), break; end
a(i(k)+N*(j(k)-1))=0.0075+d*5.1e-4;
end
xyOutH=xyOut;
single_idx = find(sum(a)==1);
[singles_link, ~] = find(a(:,single_idx)==1);
xyOut(single_idx,:)=xyOut(singles_link,:);
for zsingle=1:2
xyOut0=sqrt(N)*detrend(xyOut,'constant')*diag(1./std(xyOut,1,1));
k=5;
[sxyOut0,idxequal]=sortrows(round(15*xyOut0));
idxequal=idxequal(all(~diff(sxyOut0,1,1),2));
xyOut=round(xyOut0);
while size(unique(xyOut,'rows'),1)~=N
k=k*(1.0+d*0.055);
xyOut=xyOut0*k;
xyOut(idxequal,:)=(xyOut0(idxequal,:)+randn(numel(idxequal),2)/(9+d))*k;
xyOut=round(xyOut);
end
if zsingle==1
xyOut1=xyOut;
xyOut=xyOutH;
end
end
end
function xyOut = solver_hannes(xyIn, N, V,xyOut)
mult = norm(max(xyIn)-min(xyIn))/norm(max(V)-min(V));
%xyOut = [];
while size(unique(xyOut,'rows'),1)<N
xyOut = round(V*mult);
[~,i] = unique(xyOut,'rows');
m = setdiff(1:N,i);
xyOut(m,:) = xyOut(m,:) + round(rand(length(m),2))*2 - 1;
mult = mult*1.5;
end
end
function ans = gradeIt(p1i,p2i,pickr,pickc,XYnew)
X = [XYnew(p1i,:) XYnew(p2i,:)];
x1 = X(pickr,:);
x3 = X(pickc,:);
sum(areIntersecting(x1(:,1),x1(:,2),x1(:,3),x1(:,4),x3(:,1),x3(:,2),x3(:,3),x3(:,4)));
end
function ans = areIntersecting(x1,y1,x2,y2,x3,y3,x4,y4)
a = x1.*y2 - y1.*x2;
b = x3.*y4 - y3.*x4;
Px_n = a.*(x3 - x4) - b.*(x1 - x2);
Py_n = a.*(y3 - y4) - b.*(y1 - y2);
Pxy_d = (x1 - x2).*(y3 - y4) - (y1 - y2).*(x3 - x4);
isPointBetween(x1, x2, Px_n, Pxy_d) & ...
isPointBetween(y1, y2, Py_n, Pxy_d) & ...
isPointBetween(x3, x4, Px_n, Pxy_d) & ...
isPointBetween(y3, y4, Py_n, Pxy_d);
end
function ans = isPointBetween(pt1, pt2, num, den)
(pt1.*den - num).*(num - pt2.*den) >= 0;
end
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