# generate all possible column combinations and create one matrix for each of them in R

I have a matrix like this one:

``````myarray=cov(matrix(rexp(200),50,10))
``````

I would like to generate all possible combinations of columns and compute the correlation matrix for each combination, if possible, using column numbers instead of names. In a second step I would like to compute the determinant of each matrix so maybe there is an efficient way to do it.

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But, none of the column combinations will result in a square matrix.. ? –  Arun Feb 2 '13 at 0:18
@Arun well in fact I want to calculate the correlation matrix and then calculate its determinant –  AP13 Feb 2 '13 at 0:22
what does `det(cor(myarray))`? –  Seth Feb 2 '13 at 0:25
@Seth this is the correlation matrix for the whole matrix but I would like to get all possible combinations of matrices, calculate its correlation matrix, and then its determinant or its eigenvalues, etc. –  AP13 Feb 2 '13 at 0:28
all possible combinations means that there will be pairwise and more than two, in my example there are 10 columns. –  AP13 Feb 2 '13 at 0:36

Here is one way:

``````list.of.matrices <- apply(expand.grid(rep(list(c(FALSE, TRUE)), ncol(myarray))),
1, function(j)myarray[, j, drop = FALSE])

length(list.of.matrices)
# [1] 1024
``````

Then do something like:

``````result <- sapply(list.of.matrices, function_of_your_choice)
``````

but note that `det` can only be applied to square matrices... Please clarify.

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thanks so much! –  AP13 Feb 2 '13 at 1:14
is there any way to mix do.call with sapply so that I can construct the squared matrix before I use sapply to calculate the determinant? –  AP13 Feb 2 '13 at 10:56