# Get the indexes of the boundary cells of a subset of a matrix. Matlab

Given a matrix where 1 is the current subset

``````test =

0     0     0     0     0     0
0     0     0     0     0     0
0     0     1     1     0     0
0     0     1     1     0     0
0     0     0     0     0     0
0     0     0     0     0     0
``````

Is there a function, or quick method to get change the subset to the boundary of the current subset?

Eg. Get this subset from 'test' above

``````test =

0     0     0     0     0     0
0     1     1     1     1     0
0     1     0     0     1     0
0     1     0     0     1     0
0     1     1     1     1     0
0     0     0     0     0     0
``````

In the end I just want to get the minimum of the cells surrounding a subset of a matrix. Sure I could loop through and get the minimum of the boundary (cell by cell), but there must be a way to do it with the method i've shown above.

Note the subset WILL be connected, but may not be rectangular. This may be the big catch.

This is a possible subset.... (Would pad this with a NaN border)

``````test =

0     0     0     0     0     0
0     0     0     0     0     0
0     0     1     1     0     0
0     0     1     1     0     0
0     0     1     1     1     1
0     0     1     1     1     1
``````

Ideas?

-

The basic steps I'd use are:

1. Perform a dilation on the shape to get a new area which is the shape plus its boundary
2. Subtract the original shape from the dilated shape to leave just the boundary
3. Use the boundary to index your data matrix, then take the minimum.

## Dilation

What I want to do here is pass a 3x3 window over each cell and take the maximum value in that window:

``````[m, n] = size(A); % assuming A is your original shape matrix
APadded = zeros(m + 2, n + 2);
APadded(2:end-1, 2:end-1) = A; % pad A with zeroes on each side
ADilated = zeros(m + 2, n + 2); % this will hold the dilated shape.

for i = 1:m
for j = 1:n
mask(i:i+2, j:j+2) = 1; % this places a 3x3 square of 1's around (i, j)
end
end
``````

## Shape subtraction

This is basically a logical AND and a logical NOT to remove the intersection:

``````ABoundary = ADilated & (~APadded);
``````

At this stage you may want to remove the border we added to do the dilation, since we don't need it any more.

``````ABoundary = ABoundary(2:end-1, 2:end-1);
``````

## Find the minimum data point along the boundary

We can use our logical boundary to index the original data into a vector, then just take the minimum of that vector.

``````dataMinimum = min(data(ABoundary));
``````
-
Exactly the solution I was looking for. I knew something fairly simple was escaping me. Thanks! –  kpurdon Nov 29 '12 at 3:17

You should look at this as morphology problem, not set theory. This can be solved pretty easily with `imdilate()` (requires the image package). You basically only need to subtract the image to its dilation with a 3x3 matrix of 1.

``````octave> test = logical ([0  0  0  0  0  0
0  0  0  0  0  0
0  0  1  1  0  0
0  0  1  1  0  0
0  0  1  1  1  1
0  0  1  1  1  1]);
octave> imdilate (test, true (3)) - test
ans =

0   0   0   0   0   0
0   1   1   1   1   0
0   1   0   0   1   0
0   1   0   0   1   1
0   1   0   0   0   0
0   1   0   0   0   0
``````

It does not, however, pads with NaN. If you really want that, you could pad your original matrix with false, do the operation, and then check if there's any true values in the border.

Note that you don't have to use `logical()` in which case you'll have to use `ones()` instead of `true()`. But that takes more memory and has worse performance.

EDIT: since you are trying to do it without using any matlab toolbox, take a look at the source of `imdilate()` in Octave. For the case of logical matrices (which is your case) it's a simple usage of `filter2()` which belongs to matlab core. That said, the following one line should work fine and be much faster

``````octave> (filter2 (true (3), test) > 0) - test
ans =

0   0   0   0   0   0
0   1   1   1   1   0
0   1   0   0   1   0
0   1   0   0   1   1
0   1   0   0   0   0
0   1   0   0   0   0
``````
-
Works great, I'm writing a package and would like it to use standard MATLAB only, not the image package. Thanks! –  kpurdon Nov 29 '12 at 3:18
@kpurdon the code I wrote also runs in matlab in exactly the same way (`imdilate()` is also part of matlab's image toolbox). –  carandraug Nov 29 '12 at 4:49
Correct! is imdilate() included in the base matlab, rather is the image toolbox a standard for matlab w/o additional purchase? –  kpurdon Dec 4 '12 at 2:43
@kpurdon you're right, I misunderstood you. It requires the matlab image toolbox. When you mentioned standard Matlab I read "I want something for matlab and not Octave specific" hence my reply that it wasn't Octave specific. Anyway, you can use `filter2()` which does not require a toolbox (see my edit) –  carandraug Dec 4 '12 at 16:28

One possible solution is to take the subset and add it to the original matrix, but ensure that each time you add it, you offset its position by +1 row, -1 row and +1 column, -1 column. The result will then be expanded by one row and column all around the original subset. You then use the original matrix to mask the original subet to zero.

Like this:

``````test_new = test + ...
[[test(2:end,2:end);zeros(1,size(test,1)-1)],zeros(size(test,1),1)] + ... %move subset up-left
[[zeros(1,size(test,1)-1);test(1:end-1,2:end)],zeros(size(test,1),1)] + ... %move down-left
[zeros(size(test,1),1),[test(2:end,1:end-1);zeros(1,size(test,1)-1)]] + ... %move subset up-right
[zeros(size(test,1),1),[zeros(1,size(test,1)-1);test(1:end-1,1:end-1)]];  %move subset down-right

result(result>1)=1; % ensure that there is only 1's, not 2, 3, etc.
``````

The result for this on your `test` matrix is:

``````result =

0     0     0     0     0     0
0     1     1     1     1     0
0     1     0     0     1     0
0     1     0     0     1     1
0     1     0     0     0     0
0     1     0     0     0     0
``````

Edited - it now grabs the corners as well, by moving the subset up and to the left, up and to the right, down then left and down then right.

I expect this would be a very quick way to achieve this - it doesn't have any loops, nor functions - just matrix operations.

-
A good solution for sure, but It looks like it way be a bit simpler to go the dilation route. –  kpurdon Nov 29 '12 at 3:19
Sure mate - I'd be interested to see how the different solutions compare in terms of computation time. What size input matrix are you dealing with? –  David_G Nov 29 '12 at 3:43
The input size will vary. I'm testing on a 10x10 and 1000x1000, but am writing this as a function that can theoretically handle any size. –  kpurdon Dec 4 '12 at 2:42