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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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3 Answers 3

up vote 10 down vote accepted

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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