# Is there a better way to write this in Matlab?

I have this code, but there must be a better efficient to write it:

``````rt= RealTrans;
rtsize=size(rt);
rtrows=rtsize(1);
Relative_Axis_Moves=[rt(1,1) rt(1,2) rt(1,3) rt(1,4) rt(1,5);
rt(2:rtrows,1)-rt(1:rtrows-1,1) rt(2:rtrows,2)-rt(1:rtrows-1,2)
rt(2:rtrows,3)-rt(1:rtrows-1,3) rt(2:rtrows,4)-rt(1:rtrows-1,4)
rt(2:rtrows,5)-rt(1:rtrows-1,5)];
``````

There are two rows in the matrix. The first row ends at `rt(1,5)`.

I also have the following code:

``````p1size=size(p1);
p1rows=p1size(1);
flank_edge_point=[0 0 0; p1(2:p1rows,2)-p1(1:p1rows-1,2) xy(2:p1rows,1)-xy(1:p1rows-1,1) xy(2:p1rows,2)-xy(1:p1rows-1,2); 0 0 xy(p1rows,2)];
``````

How do i get `xy(p1rows,2)` value in matlab without `p1rows`?

I also have the code below which relies on the number of rows:

``` RAMrow=size(Relative_Axis_Moves); RAMrow=RAMrow(1); for i=1:RAMrow L(i)= norm(Relative_Axis_Moves(i,:)); end L=L'; L(RAMrow+1)= 0; ```

Any way to write this code more succinctly and efficiently would be greatly appreciated.

-
I formatted the code IMHO to more readable one. Feel free to ignore it. Thanks – eat Apr 13 '11 at 14:46

Most likely, there will be more than two rows in `Relative_Axis_Moves`, since the differences in the second row evaluate to arrays.
``````Relative_Axis_Moves = [RealTrans(1,1:5);diff(RealTrans(:,1:5),1,1)];