# Vectorizing the Notion of Colon (:) - values between two vectors in MATLAB

I have two vectors, `idx1` and `idx2`, and I want to obtain the values between them. If `idx1` and `idx2` were numbers and not vectors, I could do that the following way:

``````idx1=1;
idx2=5;
values=idx1:idx2

% Result
% values =
%
%    1     2     3     4     5
``````

But in my case, `idx1` and `idx2` are vectors of variable length. For example, for length=2:

``````idx1=[5,9];
idx2=[9 11];
``````

Can I use the colon operator to directly obtain the values in between? This is, something similar to the following:

``````values = [5     6     7     8     9     9    10    11]
``````

I know I can do `idx1(1):idx2(1)` and `idx1(2):idx2(2)`, this is, extract the values for each column separately, so if there is no other solution, I can do this with a for-loop, but maybe Matlab can do this more easily.

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`values` is not possible in MATLAB. A 5-vector vertically concatentated by a 3-vector? –  petrichor Jan 15 '13 at 16:11
Yes, you are right, sorry. I'm going to correct that. I don't mind if the values are all in the same row, I just need all the values between those indexes. –  Digna Jan 15 '13 at 16:12
There is an excellent blog post on this topic by Loren at Mathworks: Vectorizing the Notion of Colon (:) –  knedlsepp Mar 10 at 21:14

Your sample output is not legal. A matrix cannot have rows of different length. What you can do is create a cell array using `arrayfun`:

``````values = arrayfun(@colon, idx1, idx2, 'Uniform', false)
``````

To convert the resulting cell array into a vector, you can use `cell2mat`:

``````values = cell2mat(values);
``````

Alternatively, if all vectors in the resulting cell array have the same length, you can construct an output matrix as follows:

``````values = vertcat(values{:});
``````
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Thanks, that helps. As I just need the values and I do not mind from which row I've obtained them, I can use `horzcat` and `unique`, like this: `values = unique(horzcat(values{:}));` I'm going to read more about arrayfun, it seems to be very useful –  Digna Jan 15 '13 at 16:26
@Digna It may look pretty, but don't abuse it. It is quite slow when compared to a `for` loop (even more so if a "vectorized" solution exists), so you should usually prefer the latter (unless speed is not an issue)... Also note that you can write `[blah blah]` instead of `horzcat(blah blah)`. –  Eitan T Jan 15 '13 at 18:32

Try taking the union of the sets. Given the values of `idx1` and `idx2` you supplied, run

``````values = union(idx1(1):idx1(2), idx2(1):idx2(2));
``````

Which will yield a vector with the values `[5 6 7 8 9 10 11]`, as desired.

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Thanks for answering. The problem is that `idx1` and `idx2` may have any length (it depends on the signal I am processing), and this solution would be difficult to apply in this case, wouldn't it? (Perhaps I'm missing something) :) –  Digna Jan 15 '13 at 16:41
Ah, whoops. Sorry, I misunderstood the question. Taking the Cartesian product using `arrayfun` seems to be the way to go here. –  benjwadams Jan 15 '13 at 17:05

I couldn't get @Eitan's solution to work, apparently you need to specify parameters to colon. The small modification that follows got it working on my R2010b version:

``````step = 1;
idx1 = [5, 9];
idx2 = [9, 11];
values = arrayfun(@(x,y)colon(x, step, y), idx1, idx2, 'UniformOutput', false);
values=vertcat(cell2mat(values));
``````

Note that `step = 1` is actually the default value in `colon`, and `Uniform` can be used in place of `UniformOutput`, but I've included these for the sake of completeness.

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There is a great blog post by Loren called Vectorizing the Notion of Colon (:). It includes an answer that is about 5 times faster (for large arrays) than using `arrayfun` or a `for`-loop and is similar to run-length-decoding:

The idea is to expand the colon sequences out. I know the lengths of each sequence so I know the starting points in the output array. Fill the values after the start values with 1s. Then I figure out how much to jump from the end of one sequence to the beginning of the next one. If there are repeated start values, the jumps might be negative. Once this array is filled, the output is simply the cumulative sum or cumsum of the sequence.

``````function x = coloncatrld(start, stop)
% COLONCAT Concatenate colon expressions
%    X = COLONCAT(START,STOP) returns a vector containing the values
%    [START(1):STOP(1) START(2):STOP(2) START(END):STOP(END)].

% Based on Peter Acklam's code for run length decoding.
len = stop - start + 1;

% keep only sequences whose length is positive
pos = len > 0;
start = start(pos);
stop = stop(pos);
len = len(pos);
if isempty(len)
x = [];
return;
end

% expand out the colon expressions
endlocs = cumsum(len);
incr = ones(1, endlocs(end));
jumps = start(2:end) - stop(1:end-1);
incr(endlocs(1:end-1)+1) = jumps;
incr(1) = start(1);
x = cumsum(incr);
``````
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