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Am looking at say 3-dimensional array M: M<-dim(3,3,3)

I want to find an efficient way to populate M with the following rule: M[i,j,k] = i/10 + j^2 + sqrt(k), ideally without having to write a loop with a for statemenet.

For clarification, there is a simple way to accomplishing this if M were 2-dimensional. If i wanted to have M[i,j] = i/10 + j^2, then i could just do M<-row(M)/10 + col(M)*col(M)

Is there something equivalent for 3-or-higher dimensional arrays?

share|improve this question
When I read the question I thought combn(1:3,3,foo) with the obvious foowould do the job. Is there a variant of combn that generates all permutations? – Philipp Oct 24 '12 at 18:22
there is certainly a way to do this with expand.grid, but the results would then have to be reshaped into the desired array structure – Ben Bolker Oct 24 '12 at 18:45
up vote 7 down vote accepted

@James's answer is better, but I think the narrow answer to your question (multidimensional equivalent of row()/col()) is slice.index ...

M<- array(dim=c(3,3,3))

It would be a good idea if someone (I or someone else) posted a suggestion on the r-devel list to make slice.index a "See also" entry on ?row/?col ...

Alternatively (similar to @flodel's new answer):

d <-,lapply(dim(M),seq)) ## create data.frame of indices
v <- with(d,Var1/10+Var2^2+sqrt(Var3))       ## default names Var1, ... Varn 
dim(v) <- dim(M)                             ## reshape into array
share|improve this answer
Thanks, everyone. One of the problems involves crossproducts of i,j and k like Ben's cos(ijk) so seems like slice.index option is most elegant. – user1766394 Oct 24 '12 at 18:37
@user1766394 If you are happy with an answer provided, please consider Accepting one of them. How to do this and why it is useful is described in the How to Ask section of the FAQ. To Accept, check the big tick mark next to the Answer you want to Accept. – Gavin Simpson Oct 24 '12 at 18:44

How about using nested outers?

, , 1

     [,1] [,2] [,3]
[1,]  2.1  5.1 10.1
[2,]  2.2  5.2 10.2
[3,]  2.3  5.3 10.3

, , 2

         [,1]     [,2]     [,3]
[1,] 2.514214 5.514214 10.51421
[2,] 2.614214 5.614214 10.61421
[3,] 2.714214 5.714214 10.71421

, , 3

         [,1]     [,2]     [,3]
[1,] 2.832051 5.832051 10.83205
[2,] 2.932051 5.932051 10.93205
[3,] 3.032051 6.032051 11.03205
share|improve this answer
cool. It would be neat if there were a multidimensional variant of outer, so that e.g. cos(i*j*k) would be an option, but this is a nice answer for the current case. – Ben Bolker Oct 24 '12 at 18:08
I suspect I'm not telling you anything that is not obvious, but maybe someone else can use this: array( mapply(function(x,y,z) cos(x*y*z), i,j,k), c(3,3,3) ). Refer to my much less kewl anser for i,j,and k. – 42- Oct 24 '12 at 19:43

You can also use arrayInd:

M   <- array(dim = c(3, 3, 3))
foo <- function(dim1, dim2, dim3) dim1/10 + dim2^2 + sqrt(dim3)
idx <- arrayInd(seq_along(M), dim(M), useNames = TRUE)
M[] <-,

I feel this approach has potential for less typing as the number of dimensions increases.

share|improve this answer
I do like that use of arrayInd! – 42- Oct 24 '12 at 20:07

Doing it from the "ground up" so to speak.

 i <- rep(1:3, times=3*3)
 j <- rep(1:3 , times= 3, each=3)
 k <- rep(1:3 , each= 3*3)
 M <- array( i/10 + j^2 + sqrt(k), c(3, 3, 3))
share|improve this answer
You could also use expand.grid if you go that way. – flodel Oct 24 '12 at 19:53
And it would generalize easier to higher dimensions as well. I just wanted to demonstrate the use of the 'times' and 'each' arguments for rep. I wasn't really thinking this was a "competitive" strategy. – 42- Oct 24 '12 at 20:03

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