# How to get the unique slices of a matrix?

In matlab, if you have a matrix `A` you can find the matrix `B` containing all of the unique rows of `A` as follows:

``````B = unique(A,'rows');
``````

What I have is a 3d matrix, with rows and columns as the first two dimensions, and one additional dimension ('slices').

How can I get the 3d matrix containing all the unique slices in a matrix `A`? Here's an example of the kind of functionality I want:

``````>> A % print out A
A(:,:,1) =

16     2     3    13
5    11    10     8
9     7     6    12
4    14    15     1

A(:,:,2) =

1     0     0     0
0     1     0     0
0     0     1     0
0     0     0     1

A(:,:,3) =

16     2     3    13
5    11    10     8
9     7     6    12
4    14    15     1

A(:,:,4) =

0     0     0     1
0     0     1     0
0     1     0     0
1     0     0     0

>> unique(A,'slices'); % get unique slices

A(:,:,1) =

16     2     3    13
5    11    10     8
9     7     6    12
4    14    15     1

A(:,:,2) =

1     0     0     0
0     1     0     0
0     0     1     0
0     0     0     1

A(:,:,3) =

0     0     0     1
0     0     1     0
0     1     0     0
1     0     0     0
``````
-

I would begin by reshaping A so each slice becomes a row (with the `reshape` command). Then use `unique(A, 'rows')`. Finally, reshape the unique rows back to the same shape the slices.

For example:

``````% transforming so each row is a slice in row form
reshaped_A = reshape(A, [], size(A, 3))';

% getting unique rows
unique_rows = unique(reshaped_A, 'rows');

% reshaping back
unique_slices = reshape(unique_rows', size(A, 1), size(A, 2), []);
``````

Or all in one line:

``````reshape(unique(reshape(A, [], size(A, 3))', 'rows')', size(A, 1), size(A, 2), [])
``````

I haven't checked this above code so use with caution! But it should give the idea.

EDIT

Here it is working on your data (also fixed little bug in above code):

``````>> reshaped_A = reshape(A, [], size(A, 3))'

reshaped_A =

Columns 1 through 11

16     5     9     4     2    11     7    14     3    10     6
1     0     0     0     0     1     0     0     0     0     1
16     5     9     4     2    11     7    14     3    10     6
0     0     0     1     0     0     1     0     0     1     0

Columns 12 through 16

15    13     8    12     1
0     0     0     0     1
15    13     8    12     1
0     1     0     0     0
``````

Each of these ^^ rows is one of the original slices

``````>> unique_rows = unique(reshaped_A, 'rows')

unique_rows =

Columns 1 through 11

0     0     0     1     0     0     1     0     0     1     0
1     0     0     0     0     1     0     0     0     0     1
16     5     9     4     2    11     7    14     3    10     6

Columns 12 through 16

0     1     0     0     0
0     0     0     0     1
15    13     8    12     1
``````

These ^^ are the unique slices, but in the wrong shape.

``````>> unique_slices = reshape(unique_rows', size(A, 1), size(A, 2), [])

unique_slices(:,:,1) =

0     0     0     1
0     0     1     0
0     1     0     0
1     0     0     0

unique_slices(:,:,2) =

1     0     0     0
0     1     0     0
0     0     1     0
0     0     0     1

unique_slices(:,:,3) =

16     2     3    13
5    11    10     8
9     7     6    12
4    14    15     1
``````
-
Great! Thanks :) –  Cam Mar 15 '13 at 5:24

A very simple and scalable solution would be:

``````A = cat(3, [16 2 3 13;5 11 10 8;9 7 6 12;4 14 15 1], [1 0 0 0;0 1 0 0;0 0 1 0;0 0 0 1], [16 2 3 13;5 11 10 8;9 7 6 12;4 14 15 1], [0 0 0 1;0 0 1 0;0 1 0 0;1 0 0 0])
[n,m,p] = size(A);
a = reshape(A,n,[],1);
b = reshape(a(:),n*m,[])';
c = unique(b,'rows', 'stable')';    %If the 'stable' option is supported by your version.
%If the 'stable' option is not supported, but it's still required, use the index vector option, as required.
%i.e.,
%[c,I,J] = unique(b,'rows');
unique_A = reshape(c,n,m,[])
``````

Results:

``````A(:,:,1) =

16     2     3    13
5    11    10     8
9     7     6    12
4    14    15     1

A(:,:,2) =

1     0     0     0
0     1     0     0
0     0     1     0
0     0     0     1

A(:,:,3) =

16     2     3    13
5    11    10     8
9     7     6    12
4    14    15     1

A(:,:,4) =

0     0     0     1
0     0     1     0
0     1     0     0
1     0     0     0

unique_A(:,:,1) =

0     0     0     1
0     0     1     0
0     1     0     0
1     0     0     0

unique_A(:,:,2) =

1     0     0     0
0     1     0     0
0     0     1     0
0     0     0     1

unique_A(:,:,3) =

16     2     3    13
5    11    10     8
9     7     6    12
4    14    15     1
``````
-