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I have an n x p matrix and would like to compute the n x n matrix B defined as

B[i, j] = f(A[i,], A[j,])

where f is a function that accepts arguments of the appropriate dimensionality. Is there a neat trick to compute this in R? f is symmetric and positive-definite (if this can help in the computation).

EDIT: Praneet asked to specify f. That is a good point. Although I think it would be interesting to have an efficient solution for any function, I would get a lot of mileage from efficient computation in the important case where f(x, y) is base::norm(x-y, type='F').

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migrated from stats.stackexchange.com Jun 5 '13 at 15:52

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It would help to know the form of $f(.)$ as well. As an example, for a trivial linear kernel all you need to do is multiply an argument with its transpose. So, it could depend on the definition of $f(.)$ –  prone Jun 5 '13 at 15:26

1 Answer 1

You can use outer with the matrix dimensions.

n <- 10
p <- 5
A <- matrix( rnorm(n*p), n, p )
f <- function(x,y) sqrt(sum((x-y)^2))
B <- outer( 
  1:n, 1:n, 
  Vectorize( function(i,j) f(A[i,], A[j,]) ) 
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