# Matrix in matlab?

I am working on Connected Components labeling, and my matrix is:

`````` 1     1     0     2     2     2     0     3
1     1     0     2     0     2     0     3
1     1     1     1     0     0     0     3
0     0     0     0     0     0     0     3
4     4     4     4     0     5     0     3
0     0     0     4     0     5     0     3
6     6     0     4     0     0     0     3
6     6     0     4     0     7     7     7
``````

and now, i want to do the second scan over it, for this i have made following code:

``````for i=1:1:r
for j=1:1:c
if (bw(i,j)>=1)

if (i-1>0 & i+1<=r)
% if ( bw(i,j)~= bw(i-1,j) | bw(i,j)~= bw(i+1,j))
if ( (bw(i,j)~= bw(i-1,j) & bw(i-1,j)>0))
bw(i,j)= min (bw(i-1,j),bw(i,j))
elseif ((bw(i,j)~= bw(i+1,j) & bw(i+1,j)>0))
bw(i,j) = min(bw(i+1,j),bw(i,j));
end
end

if (j-1>0 & j+1<=c)
if ( (bw(i,j)~= bw(i,j-1) & bw(i,j-1)>0))
bw(i,j) = min (bw(i,j-1),bw(i,j));
elseif((bw(i,j)~= bw(i,j+1) & bw(i,j+1)>0))
bw(i,j) = min (bw(i,j+1),bw(i,j))  ;
end
end

end
end
end
disp(bw);
``````

but the problem is, when i run this code, i get the following output

`````` 1     1     0     2     2     2     0     3
1     1     0     1     0     2     0     3
1     1     1     1     0     0     0     3
0     0     0     0     0     0     0     3
4     4     4     4     0     5     0     3
0     0     0     4     0     5     0     3
6     6     0     4     0     0     0     3
6     6     0     4     0     7     7     7
``````

only one value changes (2nd row, 4 col) in my result, whereas, I want:

``````     1     1     0     1     1     1     0     3
1     1     0     1     0     1     0     3
1     1     1     1     0     0     0     3
0     0     0     0     0     0     0     3
4     4     4     4     0     5     0     3
0     0     0     4     0     5     0     3
6     6     0     4     0     0     0     3
6     6     0     4     0     3     3     3
``````

-
Please do not delete the code after the question has been answered. –  Jonas Nov 24 '11 at 21:05

Nice solution by Jonas. As I was a bit into coding when I saw it added, I thought I'd show you my solution as well. Hopefully it is a bit more similar to your original code.

One of the mistakes you made was assuming this connection could be done in just one pass. Generaly it can not, as detections of some of the "snake elements" are dependent on the way you iterate throught the matrix. Becuase of this, I added an outer while loop.

`````` bw =[  1     1     0     2     2     2     0     3;
1     1     0     2     0     2     0     3;
1     1     1     1     0     0     0     3;
0     0     0     0     0     0     0     3;
4     4     4     4     0     5     0     3;
0     0     0     4     0     5     0     3;
6     6     0     4     0     0     0     3;
6     6     0     4     0     7     7     7 ];

%Set up matrix
[r,c] = size(bw);

bwZ = [zeros(1,c+2);[zeros(r,1) bw zeros(r,1)];zeros(1,c+2)];

%Iterate over all elements within zero padded border
done=0;%Done flag
cc=1;  %Infinite loop protection
while not(done) && cc<r*c
done=1;cc=cc+1;
for i=2:r+1
for j=2:c+1
%Point should be evaluated
p = bwZ(i,j);
if p >= 1
%Pick out elements around active elements
if bwZ(i-1,j)==0;ue=inf;else ue = bwZ(i-1,j); end;%Up element
if bwZ(i+1,j)==0;de=inf;else de = bwZ(i+1,j); end;%Down element
if bwZ(i,j-1)==0;le=inf;else le = bwZ(i,j-1); end;%Left element
if bwZ(i,j+1)==0;re=inf;else re = bwZ(i,j+1); end;%Right element

bwZ(i,j) = min([ue de le re]);
%Set flag, if something has changed
if bwZ(i,j) ~= p
done = 0;
end
end
end
end
end

bw = bwZ(2:end-1,2:end-1)
``````

Output:

bw =

`````` 1     1     0     1     1     1     0     3
1     1     0     1     0     1     0     3
1     1     1     1     0     0     0     3
0     0     0     0     0     0     0     3
4     4     4     4     0     5     0     3
0     0     0     4     0     5     0     3
6     6     0     4     0     0     0     3
6     6     0     4     0     3     3     3
``````
-
thanks :) even this works.. now, i will have to decide which one to use.. –  Ayesha Khan Nov 23 '11 at 16:32

If the numbers don't need to be preserved, you can simply call `bwlabel` on your original image:

``````newImage = bwlabel(originalImage>0);
``````

EDIT

Here's another version. It checks each connected component to see whether there's another connected component touching it. If yes, that connected component is relabelled.

``````%# nCC: number of connected components
nCC = max(originalImage(:));

for cc = 1:nCC
%# check whether the component exists
myCC = originalImage==cc;
if any(any(myCC))

%# create a mask to check for neighbors
%# by creating a border of 1 pixel
%# around the original label
msk = imdilate(myCC,true(3)) & ~myCC;

neighbours = originalImage(msk);

%# we're not interested in zeros, remove them
neighbours = neighbours(neighbours > 0);

if ~isempty(neighbours)
%# set the label of all neighbours to cc
originalImage( ismember(originalImage,neighbours) ) = cc;
end
end
end
``````
-
No, I don't want to use bwlabel, i have to use the algorithm and code accordingly. Plus, after successfully implementing first scan of connected components labeling, i dont want to use bwlabel. –  Ayesha Khan Nov 22 '11 at 21:20
is there some better way? or what is wrong in my code? –  Ayesha Khan Nov 22 '11 at 21:21
@AyeshaKhan: I've added another solution. –  Jonas Nov 22 '11 at 21:31
thanks, it is working.. but it is a little hard to understand.. Could you please also elaborate a little? –  Ayesha Khan Nov 22 '11 at 21:36
@AyeshaKhan: I have added a few explanations. I suggest you step through the code and show e.g. the variable "msk" as an image, to see what's going on. –  Jonas Nov 22 '11 at 21:39