% [gapSrc, gapDest, conMat] = makeFSrandomNetwork(numFS, numGJ)
%
% This function generates the random GJ connections for a FS network
% numFS is the number of FS connections
% numGJ is the number of GJ per FS
%
% Use showFSnetwork(conMat) to visualize connections.
function [gapSrc, gapDest, conMat] = makeFSrandomNetwork(numFS, numGJ)
validMatrix = 0;
randCtr = 0;
while(~validMatrix && randCtr < 100)
conMat = zeros(numFS,numFS);
validCons = ones(numFS,numFS);
validCons = validCons - diag(diag(validCons));
conNum = 1;
while(nnz(validCons) > 0)
validId = find(validCons);
id = ceil(length(validId)*rand);
conMat(validId(id)) = conNum;
validCons(validId(id)) = 0;
[y,x] = find(conMat == conNum);
% Connections are symmetrical
conMat(x,y) = conNum;
validCons(x,y) = 0;
% Take away the connections that are no longer possible
% No diagonal elements
% Row sum must be numGJ, same with column sum
if(nnz(conMat(:,y)) >= numGJ)
validCons(:,y) = 0;
end
if(nnz(conMat(:,x)) >= numGJ)
validCons(:,x) = 0;
end
if(nnz(conMat(x,:)) >= numGJ)
validCons(x,:) = 0;
end
if(nnz(conMat(y,:)) >= numGJ)
validCons(y,:) = 0;
end
conNum = conNum + 1;
% conMat
% validCons
% keyboard
end
if(nnz(conMat) == numFS*numGJ)
validMatrix = 1;
else
randCtr = randCtr + 1;
end
end
if(nnz(conMat) ~= numFS*numGJ)
disp(['Warning, should have ' num2str(numFS*numGJ) ' connections ' ...
'but only have ' num2str(nnz(conMat))])
keyboard
end
GJctr = zeros(numFS,1);
for i=1:max(conMat(:))
% Symmetric matrix, since GJ are two way connections
[x,y] = find(conMat == i);
x = x(1);
y = y(1);
% We number the neurons 1 to n in matlab, but genesis uses 0 to (n-1)
gapSrc{i} = ['/fs[' num2str(x-1) ']/primdend' num2str(GJctr(x)+1)];
gapDest{i} = ['/fs[' num2str(y-1) ']/primdend' num2str(GJctr(y)+1)];
GJctr(x) = mod(GJctr(x),3)+1;
GJctr(y) = mod(GJctr(y),3)+1;
end