# Calculate Voronoi Cell Area

I am trying to calculate the Area of each Voronoi cell in matlab but I am stuck. I found this code online:

``````[v , c] = voronoin(sdata);
for i = 1 : size(c ,1)
ind = c{i}';
tess_area(i,1) = polyarea( v(ind,1) , v(ind,2) );
end
``````

This code does not work because one of the points in v is [Inf,Inf]. This is a point in infinity. How can I bypass this problem?

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According to the example in the documentation for 'voronoin', the first point of v will always be [Inf, Inf]. Here's a quote:

The first row of V is a point at infinity. If any index in a cell of the cell array is 1, then the corresponding Voronoi cell contains the first point in V, a point at infinity. This means the Voronoi cell is unbounded.

If you want to use 'polyarea' on the vertices v without getting NaNs then my naive answer is to chop off the first row of v before inputting it into 'polyarea':

`````` sdata = [ 0.5    0
0      0.5
-0.5   -0.5
-0.2   -0.1
-0.1    0.1
0.1   -0.1
0.1    0.1 ]
[v , c] = voronoin(sdata);
for i = 1 : size(c ,1)
ind = c{i}';
tess_area(i,1) = polyarea( v(2:end,1), v(2:end,2))
end
``````

But if that's not what you meant by "not working" then perhaps you can elaborate more on what you expected to see?

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this can avoid the NaN thing :

``````      [ v, c] = voronoin ( sdata );
tess_area=zeros(size(c,1),1);

for i = 1 : size(c ,1)
ind = c{i}';
if ind~=1
tess_area(i,1) = polyarea( v(ind,1) , v(ind,2) );
end
end
``````
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