# How to apply a binary function in Matlab on two vectors to get a matrix of all pairwise results?

Is there any function in Matlab that can take two vectors (not necessarily of the same size) and apply a binary function on every pair of the vector's elements resulting in a matrix n1xn2, where n1 and n2 are the lengths of the input vectors?

Something similar to pdist2, but with arbitrary function pointer instead of the distance function.

``````Example usage:
v1 = [1, 2, 3]
v2 = [2, 3]

Apply(@plus, v1, v2) -> [3, 4; 4, 5; 5, 6];
``````

Note: although, the example is numerical, the actual vectors I need to work with are arrays of cells each containing a string (all strings have equal length). The binary function takes two strings and returns a scalar, for example - strcmp.

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The answer I posted works on the example data. It's not really clear how you want to add the strings. Could you provide an example? What do you want if `v1 = {'one', 'two'}` and `v2 = {'the', 'cat', 'dog'}`? –  Robert P. Nov 9 '13 at 11:52
Updated the question. The function receives two strings and returns a scalar, think - strcmp, strcat ... –  user2971693 Nov 9 '13 at 12:16
Still unclear to me... Please provide an example with strings. –  Robert P. Nov 9 '13 at 12:26
`v1 = [{'one'}, {'two'}]; v2 = [{'two'}, {'three'}]`. Apply(@strcmp, v1, v2) -> `[0, 0; 1, 0]` –  user2971693 Nov 9 '13 at 12:28

You can achieve that with `ndgrid` and `arrayfun`. Consider the following example data (cell arrays of strings):

``````v1 = {'aa','bb','cc'};
v2 = {'1','22'};
``````

and example function (string concatenation):

``````fun = @(str1, str2) [str1 str2]
``````

Then:

``````M = length(v1);
N = length(v2);
[ii jj] = ndgrid(1:M, 1:N);
reshape(arrayfun(@(k) fun(v1{ii(k)},v2{jj(k)}) , 1:M*N, 'uni', false), M,N)
``````

gives the desired result:

``````ans =

'aa1'    'aa22'
'bb1'    'bb22'
'cc1'    'cc22'
``````

In the general case, simply define `v1`, `v2` and `fun` as needed.

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This seems to work, but the `arrayfun` is extremely slow. Not sure it's any faster than a `for` loop. –  user2971693 Nov 9 '13 at 13:30
It's not faster than a `for`, actually. You could easily replace it by a `for`. I think it's difficult to avoid the `accumarray`/`for` for arbitrary functions. Perhaps for your specific function it could be vectorized. Tell us what the function is... –  Luis Mendo Nov 9 '13 at 13:31
After converting my function, so that it could work with matrix inputs instead of string inputs, I've passed to it `repmat`-ed input vectors. The problem is that the new function is more complicated/less readable than the original one. –  user2971693 Nov 9 '13 at 14:08

This one works on the example data:

``````repmat(v2,numel(v1),1)+[v1(:), v1(:)]

ans =
3     4
4     5
5     6
``````

# Update

Try something like this if `numel(v2) ~= 2` (still only for the numerical example you have provided):

``````repmat(v2,numel(v1),1)+repmat(v1(:),1,numel(v2))
``````
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It also assumes that v2 has exactly two elements. –  user2971693 Nov 9 '13 at 12:15
In the numerical case it's easier to `bsxfun(@plus, v1', v2)`. –  user2971693 Nov 9 '13 at 12:35

An answer to the OP's last comment (very different from the content of the question) would be the following:

``````>> v1 = [{'one'}, {'two'}]; v2 = [{'two'}, {'three'}];
>> cellfun(@strcmp,repmat(v1',1,size(v2,2)),repmat(v2,size(v1,2),1))

ans =

0     0
1     0
``````

For the example numeric data and the plus operation in the question, that is solved by:

``````>> v1 = [1, 2, 3]; v2 = [2, 3];
>> bsxfun(@plus,v1',v2)

ans =

3     4
4     5
5     6
``````

However, I think the answer to the string concatenation problem is answered well by Luis Mendo.

In general, to do an operation for all pairs, `bsxfun` should be your go-to function for numeric arrays. For cells, strings, and other non-POD types, consider combinations of `repmat`, `arrayfun` and `cellfun`. It's hard to be more specific without a more specific question.

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