# Setting pixels to a specific value

I wrote this function in `matlab` that sets the value of the pixels `x` that have a degree of membership `y` = `1` to `1` as follows:

``````function c = core(x, y)
tolerance = 0.01;
pixels = [];
index = 1;
for i=1:length(y)
for j=1:length(y)
if abs(y(i,j)-1) <= tolerance
x(i,j) = 1;
pixels(index) = x(i,j);
end
end
end
c = pixels;
end
``````

Since I'm calling this function from a script, how can I return back those pixels that were set to `1`? Or, will the correct way here to return the original image with the pixels that met the criterion set to `1`.

Bur, before I continue, I didn't see that the pixels in the image that met the criterion were set to `1`. Isn't my of setting the pixel to `1` correct?

The bottom line is that I'm assuming that `core` represents those pixels that had the degree of membership equal to `1`. And, in the algorithm I'm trying to implement, I have the following line:

``````C1 = core(F)
``````

Where `F` represents the image.

Based on that, what is the correct way to write this in `matlab`. Well, yes, in `matlab` this line can simply be written as:

``````C.('C1') = core(x,y);
``````

But, the question is, based on the information above, what will be returned to my calling script and how?

And, yes, as an output, I'm always getting `1` in `ans`. Why is that?

Thanks.

-

First off, all the parameters you pass on the right hand side of the function are treated as local parameters to the function and do not get updated outside. So to get the updated image, return it on the left side.

Second there are errors in your algorithm:

1- the `for` loops does not scan all the image.

2- the `index` variable never gets updated.

This function below should achieve what you want:

``````function [x,pixels] = core(y)
tolerance = 0.01;
pixels = [];
index = 1;
for i=1:size(y,1)
for j=1:size(y,2)
index = j+i*size(y,2);
if abs(y(i,j)-1) <= tolerance
x(i,j) = 1;
pixels = [pixels index];
end
end
end
end
``````

EDIT:

A much easier way to do this without looping:

``````tolerance = 0.01;
x = zeros(size(y));
x((abs(y)-1) <= tolerance) = 1;
pixels = find(x==1);
``````
-