# Set all nonzero matrix elements to 1 (while keeping the others 0)

I have a mesh grid defined as

``````[X, Y, Z] = meshgrid(-100:100, -100:100, 25); % z will have more values later
``````

and two shapes (ovals, in this case):

``````x_offset_1 = 40;
x_offset_2 = -x_offset_1;
o1 = ((X-x_offset_1).^2./(2*Z).^2+Y.^2./Z.^2 <= 1);
o2 = ((X-x_offset_2).^2./(2*Z).^2+Y.^2./Z.^2 <= 1);
``````

Now, I want to find all points that are nonzero in either oval. I tried

``````union = o1+o2;
``````

but since I simply add them, the overlapping region will have a value of 2 instead of the desired 1.

How can I set all nonzero entries in the matrix to 1, regardless of their previous value?

(I tried `normalized_union = union./union;`, but then I end up with `NaN` in all 0 elements because I'm dividing by zero...)

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Simplest solution: `A=A~=0;`, where `A` is your matrix.

This just performs a logical operation that checks if each element is zero. So it returns `1` if the element is non-zero and `0` if it is zero.

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Perfect, thanks! You were so fast, SO won't let me mark your answer as accepted until in another 6 minutes :P –  Tomas Lycken Mar 7 '11 at 23:30

First suggestion: don't use `union` as a variable name, since that will shadow the built-in function UNION. I'd suggest using the variable name `inEitherOval` instead since it's more descriptive...

Now, one option you have is to do something like what user616736 suggests in which you add your matrices `o1` and `o2` and use the relational not equal to operator:

``````inEitherOval = (o1+o2) ~= 0;
``````

A couple of other possibilities in the same vein use the logical NOT operator or the function LOGICAL:

``````inEitherOval = ~~(o1+o2);       %# Double negation
inEitherOval = logical(o1+o2);  %# Convert to logical type
``````

However, the most succinct solution is to apply the logical OR operator directly to `o1` and `o2`:

``````inEitherOval = o1|o2;
``````

Which will result in a value of 1 where either matrix is non-zero and zero otherwise.

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`union` was just something I came up with in this question - in my actual code I have variable name that correspond to what the ovals represent, so there it's not a problem. Thanks for all the good suggestions! –  Tomas Lycken Mar 8 '11 at 17:26

There is another simple solution, A=logical(A)

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