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I have a 1xN cell, call it X, whose components X{i} (for i in {1, 2, ..., N}) are either Mx1 cells of strings or Mx1 numeric vectors.

NOTE: the fact that X contains both text cells and numeric vectors precludes using cell2mat here:

>> tmp = cell2mat(X);
Error using cell2mat (line 46)
All contents of the input cell array must be of the same data type.

My question is:

What's MATLAB's "idiomatic" way to transpose this data into an array of M 1xN cells?

EDIT: To be clear, the data structure I want to arrive at, let's call it Y, is an M-long array of 1xN cells (each consisting of a mixture of numbers and strings). E.g., if N=2, and if X{1} is an Mx1 cell of strings, and X{2} is an Mx1 vector of doubles, then the desired data structure Y is such that, for any 1 ≤ iM, Y(i,:) is a 1x2 cell whose first element is the i-th string in X{1} and whose second element is the i-th double in X{2}. I.e. Y(i,:) would be the same as the 1x2 cell Yi defined as follows

xi1 = X(i, 1);
xi2 = X(i, 2);
Yi = {xi1{1} xi2{1}};

(Sorry for the awkwardness! I just can't find a MATLAB expression for Yi directly in terms X and i, without having to create intermediate variables xi1 and xi2.)

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What do you mean by "transpose into an array of M 1xN cells"? What is the problem with handling this data in the way it is stored now? Are you asking how to access each element in the 1xN cell array? – Eitan T Jan 8 '13 at 16:50
I want to pass the data to functions that take as arguments such arrays of 1xN cells. – kjo Jan 8 '13 at 16:53
Converting a cell-array of Mx1 matrices to a single matrix is easy, just do [X{:}]. But what data structure do you expect to get in case of strings? – Eitan T Jan 8 '13 at 17:08
@EitanT See my latest EDIT. – kjo Jan 8 '13 at 17:32
up vote 2 down vote accepted

First of all, to my knowledge there is no 'idiomatic' way of doing that i Matlab. Remember, we're talking about a complex data structure with nested cells and differing types.

I tried to cook up a solution based on cellfun. It quickly got complicated and I didn't even succeed. So instead I would recommend doing a simple double for loop and a if like this:

for a=1:size(X,2),
    for b=1:size(X{a},1),
        if iscell(X{a}),
            Y{a,b} = X{a}{b};
            Y{a,b} = X{a}(b);

If X = {{'s1';'s2'} [3; 4]} then this solution will give Y = {'s1' 3 ;'s2' 4}.

As you see I have flattened the cell to one depth. To get your 1xN vectors, do Y{1,:}

Hope it helps

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If each cell in X contains a vector of the same size convert it to a matrix, transpose that matrix and then convert it back to a cell array?

tmp = cell2mat(X);
Y = mat2cell(tmp', ...);
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Thanks, but that won't work; I've added a NOTE to my original post showing why. – kjo Jan 8 '13 at 19:52

Here is the function:

feval(@(y) feval(@(x) cellfun(@(varargin)[varargin],x{:},'un',0), cellfun(@(x) feval(@(varargin) varargin{3-varargin{1}}(), iscell(x),x,num2cell(x)),y,'un',0)), {{'1','2','3'},[4 5 6],{7,8,9}})

Or stored as a function name:

transpose_nest = @(cell_nest) feval(@(y) feval(@(x) cellfun(@(varargin)[varargin],x{:},'un',0), cellfun(@(x) feval(@(varargin) varargin{3-varargin{1}}(),iscell(x),x,num2cell(x)),y,'un',0)), cell_nest);

transpose_nest({{'1','2','3'},[4 5 6],{7,8,9}})


It is based on a Matlab equivalent of Scheme's (apply map list '(("1" "2" "3") (4 5 6) (7 8 9))) that only works on sub cells:

feval(@(x) cellfun(@(varargin)[varargin],x{:},'un',0), {{'1','2','3'},{4,5,6},{7,8,9}})


The extra part:

@(x) feval(@(varargin) varargin{3-varargin{1}}(), iscell(x), x, num2cell(x))

is an if statement within an anonymous function that calls num2cell if any sub element is a vector

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