All possible combinations of 2 vectors.

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Artyom
Artyom on 22 Nov 2012
Hi everyone.
I have one vector and one number. For example [1 3 5] and 0.
How do I generate all possible combinations? Like this:
0 3 5
1 0 5
1 3 0
0 0 5
0 3 0
1 0 0
0 0 0
  2 Comments
Matt Fig
Matt Fig on 22 Nov 2012
Why is the last row all zeros? It looks like the rule is: take at least one element from each vector, with repetition allowed only for the shorter vector. But then the last row breaks this. So what is the rule?
Artyom
Artyom on 22 Nov 2012
The rule is:
1) we have an n - dimensional vector.
2) replace one number with zero and find all combinations
3) replace two numbers with zero and find all combinations
4) ...
5) replace n-1 number with zero and find all combinations
6) replace n number with zero

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Accepted Answer

Matt Fig
Matt Fig on 22 Nov 2012
Edited: Matt Fig on 23 Nov 2012
Here is a solution:
function H = mycomb(V)
% Help
L = length(V);
H = cell(1,L);
for ii = 1:L-1
C = nchoosek(1:L,L-ii);
R = cumsum(ones(size(C)));
M = max(R(:,1));
H{ii} = zeros(M,L);
H{ii}(R+(C-1)*M) = V(C);
end
H{L} = zeros(1,L);
H = vertcat(H{:});
Now try it out from the command line:
>> mycomb([4 5 6])
ans =
4 5 0
4 0 6
0 5 6
4 0 0
0 5 0
0 0 6
0 0 0
>> mycomb([4 5 6 7])
ans =
4 5 6 0
4 5 0 7
4 0 6 7
0 5 6 7
4 5 0 0
4 0 6 0
4 0 0 7
0 5 6 0
0 5 0 7
0 0 6 7
4 0 0 0
0 5 0 0
0 0 6 0
0 0 0 7
0 0 0 0

More Answers (3)

Andrei Bobrov
Andrei Bobrov on 22 Nov 2012
Edited: Andrei Bobrov on 22 Nov 2012
variant
t = [1 3 5];
ii = perms([t, zeros(size(t))]);
out = unique(sort(t(:,1:numel(t)),2),'rows');
or
t = [1 3 5];
out = [];
n = numel(t);
for jj = 1:n
k = nchoosek(t,n - jj);
out = [out;[zeros(size(k,1),jj),k]];
end
or
k = ones(1,numel(t)) * 2.^(numel(t)-1:-1:0)';
out = bsxfun(@times,t,dec2bin(0:k - 1,numel(t))-'0');
Azzi Abdelmalek
Azzi Abdelmalek on 22 Nov 2012
Edited: Azzi Abdelmalek on 23 Nov 2012
save this function
function y=arrangement(v,n)
m=length(v);
y=zeros(m^n,n);
for k = 1:n
y(:,k) = repmat(reshape(repmat(v,m^(n-k),1),m*m^(n-k),1),m^(k-1),1);
end
then type
x=arrangement([1 3 5 0],3)
out=x(~all(x,2),:)
If you don't need repetition add
s=arrayfun(@(t) sort(out(t,:)),(1:size(out,1))','un',0)
out1=unique(cell2mat(s),'rows')
Matt J
Matt J on 23 Nov 2012
Edited: Matt J on 23 Nov 2012
t=[1 3 5];
n=length(t);
result = bsxfun(@times, [1,3,5], dec2bin(2^n-1:-1:0)-'0')

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