# Extracting portions of matrix into cell array

I have a pretty large matrix `M` and I am only interested in a few of the columns. I have a boolean vector `V` where a value of `1` represents a column that is of interest. Example:

``````      -1 -1 -1  7  7 -1 -1 -1  7  7  7
M  =  -1 -1  7  7  7 -1 -1  7  7  7  7
-1 -1  7  7  7 -1 -1 -1  7  7 -1

V  =   0  0  1  1  1  0  0  1  1  1  1
``````

If multiple adjacent values of `V` are all `1`, then I want the corresponding columns of `M` to be extracted into another matrix. Here's an example, using the matrices from before.

``````      -1  7  7             -1  7  7  7
M1  =  7  7  7       M2  =  7  7  7  7
7  7  7             -1  7  7 -1
``````

How might I do this efficiently? I would like all these portions of the matrix `M` to be stored in a cell array, or at least have an efficient way to generate them one after the other. Currently I'm doing this in a while loop and it is not as efficient as I'd like it to be.

(Note that my examples only include the values `-1` and `7` just for clarity; this isn't the actual data I use.)

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Just curious, what implementation are you using? –  jucestain Mar 26 '13 at 1:27
Indeed, I have not seen this kind of calculation before, so it makes me wonder what you try to achieve. There may just be a better way. –  Dennis Jaheruddin Mar 27 '13 at 17:09
@DennisJaheruddin I'm trying to extract letters from an image. –  Paul Manta Mar 27 '13 at 17:53

You can utilize the `diff` function for this, to break your `V` vector into blocks

``````% find where block differences exist
diffs = diff(V);
% move start index one value forward, as first value in
% diff represents diff between first and second in original vector
startPoints = find(diffs == 1) + 1;
endPoints = find(diffs == -1);

% if the first block begins with the first element diff won't have
% found start
if V(1) == 1
startPoints = [1 startPoints];
end

% if last block lasts until the end of the array, diff won't have found end
if length(startPoints) > length(endPoints)
endPoints(end+1) = length(V);
end

% subset original matrix into cell array with indices
results = cell(size(startPoints));
for c = 1:length(results)
results{c} = M(:,startPoints(c):endPoints(c));
end
``````
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+1: By the way, the computation of the indices can be shortened using `strfind` in the following way: `startPoints = strfind([0 V], [0 1]); endPoints = strfind([V 0], [1 0]);`. –  Eitan T Mar 27 '13 at 23:55

The one thing I'm not sure of is if there's a better way to find the `being_indices` and `end_indices`.

Code:

``````X = [1     2     3     4     5     1     2     3     4     5
6     7     8     9    10     6     7     8     9    10
11    12    13    14    15    11    12    13    14    15
16    17    18    19    20    16    17    18    19    20
1     2     3     4     5     1     2     3     4     5
6     7     8     9    10     6     7     8     9    10
11    12    13    14    15    11    12    13    14    15
16    17    18    19    20    16    17    18    19    20];

V = logical([ 1     1     0     0     1     1     1     0     1    1]);

find_indices = find(V);
begin_indices = [find_indices(1)  find_indices(find(diff(find_indices) ~= 1)+1)];
end_indices = [find_indices(find(diff(find_indices) ~= 1)) find_indices(end)];

X_truncated = mat2cell(X(:,V),size(X,1),[end_indices-begin_indices]+1);
X_truncated{:}
``````

Output:

``````ans =

1     2
6     7
11    12
16    17
1     2
6     7
11    12
16    17

ans =

5     1     2
10     6     7
15    11    12
20    16    17
5     1     2
10     6     7
15    11    12
20    16    17

ans =

4     5
9    10
14    15
19    20
4     5
9    10
14    15
19    20
``````
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Well, I just profiled the `mat2cell` function against DMR's for loop and it appears `mat2cell` is slower... –  jucestain Mar 26 '13 at 1:42