# Comparing values across unequal matrices in Matlab

I would like to compare rows across two unequal matrices in Matlab and extract these rows to be stored in a different matrix (say D). For example,

``````tmp = [2245; 2345; 2290; 4576]
``````

and

``````id=[1 2245 564 8890 123;
2 2445 5673 7846 342;
3 2290 3428 3321 908].
``````

Id is a much larger matrix. I want to locate each value of tmp which is in ‘id’. Although using the intersect command in the line below I have been able to locate the rows of id which contain the values from tmp, I would like to do this for each value of tmp one by one as each value of tmp is repeated multiple times in id. I tried using foreach. However, I get an error message stating that foreach cannot be used for char type array. Could anyone please suggest an alternative how to go about this?

``````for j=1:length(tmp);
[D,itmp,id2] = intersect(tmp(j,1),id(:,2), 'rows');
``````

Despite using the loop, the code doesn’t seem to take one value of j at a time. This was the reason behind trying ‘foreach j’. Also after finding the rows common to the two matrices and storing them in D, I would like to append matrix id to include the value of j next to the relevant row within id. For example, if the first value within tmp was repeated in id in rows 1,3,5,10; I would like a column in id which would take the value 1 next to rows 1,3,5,10. Any help on this would be much appreciated! Thanks.

Not sure exactly, what you trying to do, but to search a value in a matrix you can use find:

``````  for i = 1:numel(tmp)
[row, col] = find(id == tmp(i));
end
``````

You can easily achieve this using a combination of `bsxfun` and `permute`. What you would do is transform the `tmp` vector so that it is a single 3D vector, then use the `eq` (equals) function and see which values in your matrix are equal to each value of `tmp`. Therefore, do something like:

``````%// Your data
id=[1 2245 564 8890 123;
2 2445 5673 7846 342;
3 2290 3428 3321 908]
tmp = [2245; 2345; 2290; 4576];

tmp2 = permute(tmp, [3 2 1]); %// Make a 3D vector
tmp3 = bsxfun(@eq, id, tmp2); %// Find which locations of id are equal to each value of tmp
``````

This is what I get for my final output, stored in `tmp3`:

``````tmp3(:,:,1) =

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

tmp3(:,:,2) =

0     0     0     0     0
0     0     0     0     0
0     0     0     0     0

tmp3(:,:,3) =

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

tmp3(:,:,4) =

0     0     0     0     0
0     0     0     0     0
0     0     0     0     0
``````

As you can see here, each 3D slice tells you which elements in `id` match the corresponding value in `tmp`. Therefore, the first slice tells you whether any element in `id` is equal to `tmp(1)`, which is 2245. In this case, this would be the first row and second column. For the second slice, no values matched `tmp(2) = 2345`. For the third slice, one value in `id` matched `tmp(3) = 2290`, which is row 3, column 3.

Now, what you're really after is determining the rows and columns of where each value of `tmp` matched each location in `id`. You want this to be delineated per `id` number. That can easily be done using `ind2sub` and `find` on this matrix:

``````[rows, cols, ID] = ind2sub(size(tmp3), find(tmp3))

rows =

1
3

cols =

2
2

ID =

1
3
``````

Therefore, `ID` tells you which `id` we have matched to, and `rows`, `cols` tells you which rows and columns in `id` we were able to match with. Therefore, for `id = 1`, we found a match with `tmp(1)= 2245`, and this is located at `row=1,col=2`. Similarly, for `id = 3`, we found a match with `tmp(3)=2290` and this is at `row=3,col=2`.

To make this into all one big 2D matrix that contains all the information you want, you can simply concatenate all of these columns into one matrix. Therefore:

``````final = [ID rows cols]

final =

1     1     2
3     3     2
``````

You can read this like so:

• `id=1` with `tmp(1) = 2245`, we found this value in `row=1,col=2`.
• `id=3`, with `tmp(3) = 2290`, we found this value in `row=3,col=2`

Hope this helps!