# Vectorize function that outputs a row using arrayfun, returning a matrix

I'm using Octave and would like to vectorize a function that accepts as input a single real number and outputs a row vector of fixed length. I understand that `arrayfun` should be able to do this from its unclear documentation. From `help arrayfun` in Octave 3.2:

If the parameter VAL after a further string input argument "UniformOutput" is set 'true' (the default), then the named function FUNC must return a single element which then will be concatenated into the return value and is of type matrix. Otherwise, if that parameter is set to `false', then the outputs are concatenated in a cell array.

It seems however that Matlab's version is more forgiving:

[B1,...,Bm] = arrayfun(func,A1,...,An) calls the function specified by function handle func and passes elements from arrays A1,...,An, where n is the number of inputs to function func. Output arrays B1,...,Bm, where m is the number of outputs from function func, contain the combined outputs from the function calls. The ith iteration corresponds to the syntax [B1(i),...,Bm(i)] = func(A1{i},...,An{i}). The arrayfun function does not perform the calls to function func in a specific order.

It looks like this works in Matlab but not in Octave. Am I correct that this generalization cannot be performed using `arrayfun` in Octave? Is there some more clever way to achieve this without resorting to unvectorized loops?

For reference, here is my Octave result:

octave:5> nums
nums =

@(c) ([c, c + 2, c + 4])

octave:6> arrayfun(nums,[1,2,3])
error: cellfun: expecting all values to be scalars for UniformOutput = true
error: called from:
error: /opt/local/share/octave/3.2.4/m/general/arrayfun.m at line 168, column 21
octave:6>

-
why do you insist on `arrayfun`? try simple `for` loop and be done with it. – Shai Dec 10 '13 at 17:09
– djechlin Dec 10 '13 at 17:53
@djechlin: stackoverflow.com/questions/12522888/… – Daniel Dec 10 '13 at 17:57
@DanielR that answer is for Matlab and the OP has explicitly stated he's using Octave. Advising him to use a for loop there is no no. – carandraug Dec 11 '13 at 11:57

Use arrayfun to apply the function, `nums` to an array `[1,2,3]`

``````CellArray = arrayfun(nums, [1,2,3], "UniformOutput", false);
``````

That gives you a cell array. If you want the answer in a matrix, use `cell2mat`

``````cell2mat(CellArray);
``````

If your actual `nums` is more complicated, then we'll need a better example of it to suggest a solution.

-
`arrayfun` with `"UniformOutput", false` returns a "row" cell array (i.e. along the 2nd dimension). And the outputs of `nums` are also row vectors (i.e. along the 2nd dimension too). The `cell2mat` concatenates them as a long row vector. To obtain a matrix, first reshape the cell array to be along the expected concatenation dimension: `cell2mat( reshape(CellArray, numel(CellArray), 1) )` – ederag Sep 28 '14 at 10:17

The error already suggests how to solve the problem:

``````arrayfun(nums,[1,2,3],'UniformOutput',false)
``````

There is no difference between Matlab and Octave.

Matlab:

``````>> nums=@(c) ([c, c + 2, c + 4])

nums =

@(c)([c,c+2,c+4])

EDU>> arrayfun(nums,[1,2,3])
Error using arrayfun
Non-scalar in Uniform output, at
index 1, output 1.
Set 'UniformOutput' to false.

>> arrayfun(nums,[1,2,3],'UniformOutput',false)

ans =

Columns 1 through 2

[1x3 double]    [1x3 double]

Column 3

[1x3 double]
``````

Octave:

``````octave:1> nums=@(c) ([c, c + 2, c + 4])
nums =

@(c) ([c, c + 2, c + 4])

octave:2> arrayfun(nums,[1,2,3])
error: arrayfun: all values must be scalars when UniformOutput = true
octave:2> arrayfun(nums,[1,2,3],'UniformOutput',false)
ans =
{
[1,1] =

1   3   5

[1,2] =

2   4   6

[1,3] =

3   5   7

}
octave:3>
``````

If your function is really that simple, I suggest to use:

``````nums([1,2,3]')
``````
-
Unfortunately my actual `nums` is a bit more complicated. It's more like `nums = @(c)(other_function(c, curried_argument))`. I think that's why your last solution breaks. Yes, I could disable UniformOutput and transform the output which is maybe the most elegant thing to do, but still researching. – djechlin Dec 11 '13 at 2:22
@djechlin then, if possible, you should consider writing the `other_function` as to accept vectors. – carandraug Dec 11 '13 at 11:58
@carandraug I don't own it. (It's `fmincg`.) – djechlin Dec 11 '13 at 13:44