# Calculating displacement many times with respect to different elements

I have the following data (or similar):

``````  154240           1           7
154240           2           2
154240           5           6
154240           2           5
154240           6           7
154240           2           7
154240           5           6
154240           6           7
154240           4           6
154240           4           6
154240           4           6

641224           2           3
641224           2           1
641224           2           3
641224           1           2

641311           5           5
641311           7           5
``````

It represents data of the form [tag number of rat, x coord, y coord] (as im studying a rat population). I would like to calculate the displacement of x & y with respect to the first x & y entries for each of the same value of the tag, i.e. I want an nx3 matrix (where n is size of my data) which gives me [tag number again,(0,x2-x1,x3-x1,x4-x1 etc),(0,y2-y1,y3-y1,y4-y1 etc)] but I am totally inept at programming and am flummoxed right now.

Any help is greatly appreciated!

-
Welcome to SO, what have you tried? – bla Jan 28 '13 at 22:25

Supposing that you already have a matrix

``````A = [tag,x,y];
``````

you should just try with

``````disp(:,1) = A(:,1);
disp(:,2) = arrayfun(@(ii) A(ii,2) - A(1,2),1:size(A,1));
disp(:,3) = arrayfun(@(ii) A(ii,3) - A(1,3),1:size(A,1));
``````

I hope this helps.

-

I think the easiest approach is to first split your data into a cell array of datasets that contain a single tag only. Then it's just a matter of subtracting the first row from each dataset.

You can use the `diff` function to find the indices where your first column changes. That would give you all the points at which to split your data. Something like this:

``````splits = find([1; diff(M(:,1)) ~= 0; 1])
``````

Breaking this down, we say that the first row is always a point of interest. Then any row where the index changes is a point of interest. Finally, the row after the last row is also a point of interest.

Running that on your data, I get this:

``````splits =

1
12
16
18
``````

And a sanity test:

``````>> M(splits(1:end-1),:)

ans =

154240           1           7
641224           2           3
641311           5           5
``````

Now you can build the ranges you are interested in:

``````>> ranges = [splits(1:end-1), splits(2:end)-1]

ranges =

1    11
12    15
16    17
``````

You can then extract the relevant rows from your matrix into a cell array like this:

``````D = arrayfun( @(x) M(ranges(x,1):ranges(x,2),:), 1:size(ranges,1), 'uniformoutput', false )
``````

Now you have a cell array of 3-column matrices, where each cell represents one tagged dataset. Here's one of them:

``````>> D{2}

ans =

641224           2           3
641224           2           1
641224           2           3
641224           1           2
``````

Now you can go through your cells and apply the operation of subtracting the first row from the rest. There are various ways to do this. That's an exercise for you.

-
Hi, thanks for the help, I think youre right, using cell arrays is a much nicer & easier way. I've had a go at writing the command which subtracts each row of each cell from the first row of that cell, and I think im getting the correct answers, however i'm using a for loop and only the very last calculation is being saved, the rest are just written over during the loop. As a newbie, this is the sort of thing that takes ages to figure out & find a solution to, so would really appreciate more help. Heres the code that im using after I've put my matrix of many tags into a cell array: – user2019727 Jan 31 '13 at 14:27
here it is: `for i=1:size(cellH,1) for k=1:size(cellH{i},1) cellHdisp=cellfun(@minus,{cellH{i,1}(k,2:3)},{cellH{i,1}(1,2:3)},'uniformoutput'‌​, false) end end` thanks! – user2019727 Jan 31 '13 at 14:38
Sorry I had some trouble at formatting my code nicely, I hope you can make sense of it, if not, could you teach me how to format code on SO as well!! Thanks!! – user2019727 Jan 31 '13 at 15:17
Don't worry. You can't format code in comments =) Don't loop over the matrix in each cell. You can use `repmat` to repeat the first row `N` times. Then you can simply subtract that matrix from your original. If you want to preserve the first row and first column, you can operate on a smaller range. Something like `A{i}(2:end,2:3) = A{i}(2:end,2:3) - repmat(A{i}(1,2:3), [size(A{i},1)-1, 1])`. – paddy Jan 31 '13 at 18:56