# Increment a value in Matlab upto a second value (1:n logic)

I have a 2 Year-Columns in Matlab as shown below:

``````             % Col2 Is always greater than Col1
mat  = [2009 2012 ;
2012 2012 ;
2012 2013 ;
``````

I need to do 2009:2012 for row1, 2012:2012 for row2, and so on.... This is not very easy as the size 1:N keeps changing for each pair.

``````FinalAns = [    2009
2010
2011
2012           % --
2012           % --
2012
2013      ] ;  % --
``````

I cannot use a 'for' loop as the data size is very large and I was not successful in using `accumarray` for this. A vectorized solution would be highly appreciated.

-
Sorry I'm unclear on what you want exactly - what do you mean Col1, Col1+1 ... up to Col2? Those are matrices ... – Ansari May 16 '12 at 22:50
@Ansari --> I have edited the Q. Hope its much more clear now. – Maddy May 16 '12 at 23:01

This does what you need:

``````n = size(mat, 1);
c = arrayfun(@(x) {mat(x, 1):mat(x, 2)}, 1:n);
FinalAns = [c{:}];
``````
-

You can easily use arrayfun to produce a cell matrix as follows:

``````>> Cells = arrayfun(@(a, b) {a:b}, Col1, Col2);
>> Cells{1}

ans =

2009        2010        2011        2012

>> Cells{2}

ans =

2012

>> Cells{3}

ans =

2012        2013
``````

You might find the cell matrix more convenient than the form you originally asked for, but if not here is how to convert it:

``````>> horzcat(Cells{:})

ans =

2009        2010        2011        2012        2012        2012        2013
``````
-

This will work:

``````Col1 = [ 2009  ; 2012 ; 2012 ] ;
Col2 = [ 2012  ; 2012 ; 2013 ] ;

finalAnswer = zeros(sum(Col2 - Col1) + length(Col1),1);

curr=0;
for iter = 1:length(Col1)
There's still the for loop, but by preallocating `finalAnswer` as above you should get most of the gains you'd expect from a vectorized solution.