# How can I sort the elements of a cell?

I have a cell like this:

``````A{1,1}=[ 1 ;2; 3;];
A{2,1}=[ 4 ;2;];
A{3,1}=[ 3 ;2; 5; 4; 6;];
...
A{N,1}=[ 10 ;2;5; 7;];   %N is very large.
``````

In other words, the number of columns in each element of this cell is different, with no definite pattern.

Now, I want to sort these elements based on the element at the first column. I mean, I want the result to be like this:

``````Asorted{1,1}=[ 1 ;2; 3;];
Asorted{2,1}=[ 3 ;2; 5; 4; 6;];
Asorted{3,1}=[ 4 ;2;];
...
Asorted{N,1}=[ 10 ;2;5; 7;];
``````

Currently I use this function:

``````function Asorted = sortcell(A)
B=[];
nrows = size(A,1);

for i=1:nrows            % this for-loop is slow
st=A{i,1};
B(i,1) = st(1,1);
end
[sorted,indices] = sort(B);
Asorted = A(indices,:);
end
``````

It works, but it takes much time. In fact the for loop part is very slow.
I read about cat function, but I don't know how to use it. I used `B = cat(1,A{:}(1,1));`, but there is this error: `??? Bad cell reference operation.`

I wanted to know if there is a more faster way of doing this?

Thanks.

Update Lets do an experiment:

``````A={};
for i=1:1e3
A{i,1} = ones(4,1) * randn;
end

N=1000;sum1=0;sum2=0;sum3=0;sum4=0;
for t=1:N

% # Solution with for loop and no prealocation
tic
B = [];
for i = 1:size(A, 1)
B(i, 1) = A{i,1}(1,1);
end
[Y, I] = sort(B);
Asorted = A(I,:);
a=toc;sum1=sum1+a;

% # Solution with for loop and Prealocation
tic
B = zeros(size(A,1), 1);
for i = 1:size(A, 1)
B(i, 1) = A{i,1}(1,1);
end
[Y, I] = sort(B);
Asorted = A(I,:);
a=toc;sum2=sum2+a;

% # Solution with cellfun
tic
[Y, I] = sort( cellfun( @(x) x(1), A ) );
Asorted = A(I);
a=toc;sum3=sum3+a;
tic

% # Solution with for loop and ???
for i = 1:size(A, 1)
B(i, 1) = A{i}(1);
end
[Y, I] = sort(B);
Asorted = A(I);
a=toc;sum4=sum4+a;
end
``````

and the result is
sum1=2.53635923001387
sum2=0.629729057743372
sum3=4.54007401778717
sum4=0.571285037623497

** Which means per-allocation is faster, but what is the 4-th method. I thought it deserves to be discussed in a separate question. see Matlab Pre-allocation vs. no allocation, the second one is faster, why?

-
your loop is very slow since you have not pre-allocated memory space for array `B`. Your way, at each iteration, Matlab has to re-allocate memory space for `B` that is one element bigger than `B` at the previous iteration. This cause Matlab a significant slow down. Pre-allocation of arrays is a very good practice for Matlab coding. –  Shai Dec 24 '12 at 13:03

Your loop is slow because `B` is growing inside it; you should preallocate memory for `B` and it should run significantly faster. To do this, insert the following line before the `for` loop:

``````B = zeros(nrows, 1);
``````

You can further shorten your loop like so:

``````B = zeros(size(A,1), 1);
for i = 1:size(A, 1)
B(i, 1) = A{i}(1);
end
[Y, I] = sort(B);
Asorted = A(I);
``````

### EDIT

I decided to compare this solution with a shorter solution that employs `cellfun` (which I formerly proposed):

``````A = {[1; 2; 3], [4; 2], [3; 2; 5; 4; 6], [10; 2; 5; 7]};

% # Solution with a for loop
tic
for jj = 1:1e3
B = zeros(size(A,1), 1);
for i = 1:size(A, 1)
B(i, 1) = A{i}(1);
end
[Y, I] = sort(B);
Asorted = A(I);
end
toc

% # Solution with cellfun
tic
for jj = 1:1e3
[Y, I] = sort( cellfun( @(x) x(1), A ) );
Asorted = A(I);
end
toc
``````

The results are:

``````Elapsed time is 0.028761 seconds.
Elapsed time is 0.253888 seconds.
``````

The loop runs by an order of magnitude faster than `cellfun`! This difference can be extremely noticeable for large arrays, so I recommend using a `for` loop in this problem.

-
+1 I was giving the same answer, but only 30 seconds after :S –  petrichor Dec 24 '12 at 12:18
@EitanT this is the answer to my question, but please read the update part and see the linked question there. –  Ramin Dec 24 '12 at 15:16
@Ron I can see that you already posted it as a new question, and there is already (a correct) answer for you. Anyway, when you calculate `sum4` you already use a preallocated `B` from the calculation of `sum3`, so that's why it is just as fast. –  Eitan T Dec 24 '12 at 15:21
@EitanT thanks a lot, I thought this is something strange :-) –  Ramin Dec 24 '12 at 15:51
You can use `cellfun`
``````[~, I] = sort( cellfun( @(x) x(1), A ) );
@EitanT - I believe that current implementation of `cellfun`, `arrayfun` and some other `fun`s is far from ideal. However, the intention of Mathworks is to provide better (probably parallel) implementations of these functions. So, I guess it is a good practice to use these `fun`s hoping that in the future it will pay off. But you are right, if you are worried about running times more than you care about the "nicety" of your code - go ahead and `for`-loop this solution! –  Shai Dec 24 '12 at 13:47
Well, the OP did state that his main problem was performance because N is very large, so I'd rather not incite him to use `cellfun`. I myself suggested this solution but then retracted it and changed it to a for loop instead. –  Eitan T Dec 24 '12 at 13:53