unique across multiple cells or arrays

6 Aug 2020
1 Answer
Answer Accepted
Updated 8 Aug 2020
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1 vote

Let's say I got a bunch of arrays in a cell array that are not the same size:
a = {[1 2 2], [2 3 6 3], [4 3 5 6 7]}
I want to remove all dupplicates accross the cells. I want to remove things in a cell that are in the other cells as well as the dupplicates in each cells:
Example output:
b = {[1 2], [3 6], [4 5 7]}
I would like to have this vectorized. I can simply loop but this is very slow:
others = [];
for i = 1:length(a)
b{i} = setdiff(unique(a{i}), others);
others = [others, b{i}];
end
I'm thinking of putting it all into a single array to call unique:
b = unique([a{:}])
% now b = [1 2 3 4 5 6 7]
But I don't think there's anyway to put it back into its respective cells since the order is lost and I don't know where the limits are

4 Comments
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per isakson
per isakson on 7 Aug 2020
Edited: per isakson on 7 Aug 2020
Read the documentation on unique and start with something like this
len = cellfun( @numel, a ); % remember the origins of the elements
[ C, ixa, ixc ] = unique( [a{:}], 'stable' );
Next an indexing excercise will do it - I think.
Alexander Winter
Alexander Winter on 7 Aug 2020
Edited: Alexander Winter on 7 Aug 2020
I ended up with something like this:
endIdx = cumsum(cellfun(@numel, a));
startIdx = circshift(endIdx, 1);
startIdx(1) = 0;
startIdx = startIdx + 1;
[C, ixa, ~] = unique([a{:}], 'stable');
a = arrayfun(@(i) C(ixa >= startIdx(i) & ixa <= endIdx(i)), 1:length(vertices), 'UniformOutput', false);
Not sure if there's simpler but at least it works. Big thanks!
per isakson
per isakson on 8 Aug 2020
Thanks for sharing. I cannot think of anything simpler.
Matt J
Matt J on 8 Aug 2020
The process you describe does not have a well defined output. For the example you gave,
a = {[1 2 2], [2 3 6 3], [4 3 5 6 7]}
this would also satisfy the requirements:
b = {[1], [2 3], [4 5 6 7]}

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 Accepted Answer

Stephen23
Stephen23 on 8 Aug 2020
Edited: Stephen23 on 8 Aug 2020

1 vote

>> a = {[1,2,2],[2,3,6,3],[4,3,5,6,7]};
>> [u,x] = unique([a{:}],'first'); % or 'last' to allocate to the last cell where value occurs.
>> [~,y] = sort(x);
>> n = cumsum([1,cellfun(@numel,a)]);
>> z = sum(bsxfun(@ge,x(y),n),2);
>> c = accumarray(z,u(y),[],@(m){m});
>> c{:}
ans =
1
2
ans =
3
6
ans =
4
5
7

3 Comments
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the cyclist
the cyclist on 8 Aug 2020
Nice!
I don't know if it matters, but this solution will give a different result from Alexander's original one for and input like
a = {[1 2 2], [2 3 6 3], [4 3 5 6 7], [1 2]};
in which that last element has no unique elements not contained in the prior ones. Alexander's solution will include an empty array in its place, and this solution will have a shortened list instead.
Interestingly, they give equivalent results for
a = {[1 2 2], [2 3 6 3], [4 3 5 6 7], [1 2], [8 9]};
where the cell with no unique elements is not the last cell.
Stephen23
Stephen23 on 8 Aug 2020
Edited: Stephen23 on 8 Aug 2020
@the cyclist: well spotted!
The behavior you describe is caused by the presence/lack of indexing into that cell: if accumarray is not told to put anything in that cell, then that cell simply won't be created. That occurs for any number of trailing cells which only contain duplicates of prior numbers, not just the last cell.
It can be resolved quite easily by telling accumarray the required output array size:
c = accumarray(z,u(y),size(a),@(m){m});
% ^^^^^^^ output size
Alexander Winter
Alexander Winter on 8 Aug 2020
Edited: Alexander Winter on 8 Aug 2020
In my case the empty array is not desirable (I'm discarding them afterwards) so your initial solution is better for me. Thanks!

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