Datasets:

benzlxs
/

temp_backup

	function [matching] = Hungarian(map)
	% Hungarian
	% Algorithm is from:
	% http://www.public.iastate.edu/~ddoty/HungarianAlgorithm.html

	matching = zeros(size(map));

	x_con = find(sum(~isinf(map), 2) ~= 0);
	y_con = find(sum(~isinf(map), 1) ~= 0);

	C_size = max(length(x_con),length(y_con));
	C_mat = zeros(C_size);
	C_mat(1:length(x_con), 1:length(y_con)) = map(x_con, y_con);
	if isempty(C_mat)
	return
	end

	stepnum = 1;
	while true
	switch stepnum
	case 1
	C_mat = step1(C_mat);
	stepnum = 2;
	case 2
	[covered_row, covered_col, M] = step2(C_mat);
	stepnum = 3;
	case 3
	[covered_col, stepnum] = step3(M, C_size);
	case 4
	[M, covered_row, covered_col, Z_row, Z_col, stepnum] = step4(C_mat,covered_row,covered_col,M);
	case 5
	[M, covered_row, covered_col] = step5(M,Z_row,Z_col,covered_row,covered_col);
	stepnum = 3;
	case 6
	C_mat = step6(C_mat, covered_row, covered_col);
	stepnum = 4;
	case 7
	break;
	end
	end

	matching(x_con, y_con) = M(1:length(x_con), 1:length(y_con));
	end

	function C_mat = step1(C_mat)
	for i = 1:length(C_mat)
	min_val = min(C_mat(i, :));
	C_mat(i,:) = C_mat(i,:) - min_val;
	end
	end

	function [covered_row, covered_col, M] = step2(C_mat)
	n = length(C_mat);
	covered_row = zeros(n, 1);
	covered_col = zeros(n, 1);
	M = zeros(n, n);

	for i = 1:n
	for j = 1:n
	if C_mat(i,j) == 0 && covered_row(i) == 0 && covered_col(j) == 0
	M(i,j) = 1;
	covered_row(i) = 1;
	covered_col(j) = 1;
	end
	end
	end

	covered_row(:) = 0;
	covered_col(:) = 0;
	end

	function [covered_col,stepnum] = step3(M, C_size)
	covered_col = sum(M, 1);
	if sum(covered_col) == C_size
	stepnum = 7;
	else
	stepnum = 4;
	end
	end

	function [M, covered_row, covered_col, Z_row, Z_col, stepnum] = step4(C_mat, covered_row, covered_col, M)
	function [row, col] = find_a_zero()
	row = 0;
	col = 0;
	i = 1;
	done2 = false;
	while ~done2
	j = 1;
	while true
	if C_mat(i,j) == 0 && covered_row(i) == 0 && covered_col(j) == 0
	row = i;
	col = j;
	done2 = true;
	end
	j = j + 1;
	if j > n
	break;
	end
	end
	i = i + 1;
	if i > n
	done2 = true;
	end
	end
	end

	n = length(C_mat);
	done = false;
	while ~done
	[row, col] = find_a_zero();
	if row == 0
	stepnum = 6;
	done = true;
	Z_row = 0;
	Z_col = 0;
	else
	M(row,col) = 2;
	if sum(find(M(row,:)==1)) ~= 0
	covered_row(row) = 1;
	zcol = find(M(row,:)==1);
	covered_col(zcol) = 0;
	else
	stepnum = 5;
	done = true;
	Z_row = row;
	Z_col = col;
	end
	end
	end
	end

	function [M,covered_row,covered_col] = step5(M, Z_row, Z_col, covered_row, covered_col)
	done = false;
	count = 1;
	while ~done
	rindex = find(M(:,Z_col(count))==1);
	if rindex > 0
	count = count + 1;
	Z_row(count,1) = rindex;
	Z_col(count,1) = Z_col(count - 1);
	else
	done = true;
	end

	if ~done
	cindex = find(M(Z_row(count),:)==2);
	count = count + 1;
	Z_row(count, 1) = Z_row(count - 1);
	Z_col(count, 1) = cindex;
	end
	end

	for i = 1:count
	if M(Z_row(i), Z_col(i)) == 1
	M(Z_row(i), Z_col(i)) = 0;
	else
	M(Z_row(i), Z_col(i)) = 1;
	end
	end

	covered_row(:) = 0;
	covered_col(:) = 0;

	M(M == 2) = 0;
	end

	function C_mat = step6(C_mat, covered_row, covered_col)
	from_row = find(covered_row == 0);
	from_col = find(covered_col == 0);
	minval = min(min(C_mat(from_row, from_col)));

	C_mat(find(covered_row == 1), :) = C_mat(find(covered_row == 1), :) + minval;
	C_mat(:, find(covered_col == 0)) = C_mat(:,find(covered_col == 0)) - minval;
	end

	function cnum = min_line_cover(Edge)
	[covered_row, covered_col, M] = step2(Edge);
	covered_col = step3(M, length(Edge));
	[M, covered_row, covered_col, Z_row, Z_col] = step4(Edge,covered_row,covered_col,M);
	cnum = length(Edge) - sum(covered_row) - sum(covered_col);
	end