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I have been trying to do code this: For each


So far, the best way I came up to do this is by using a loop.Here is an example


for (i in 1:length(unique(x))){
  for (j in 1:length(unique(z))){

The output is OK like this, but when my dimensions grows, this becomes inefficient. Since, for a given z, this looks like a conditional cumulative sum, I am 100% sure that there is a more efficient way of doing this, without the loop.

Would any of you have any suggestion? If I didn't have z, I know I could use data.table:

 s=data[order(x)][,lapply(.SD, sum),by=c("x"), .SDcols=c("y")]
  s=s[,lapply(.SD, cumsum), .SDcols=c("y")]

but with more than one index (x and z, not just x) I was not able to formulate the program.

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THis would be easier to understand if you show a small sample of inout data and the desired output. –  Simon O'Hanlon Nov 14 '13 at 22:56
Agreed. I am doing this right now –  user17645 Nov 14 '13 at 23:07
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2 Answers 2

up vote 7 down vote accepted

I don't think you require data.table for this, as you're using the whole of "y" for each group. This'll be easier to accomplish through some linear algebra:

t(y*outer(x, unique(x), '<=')) %*% outer(z, unique(z), '<=')
          [,1]       [,2]       [,3]       [,4]       [,5]
[1,] 0.3538152  0.1762013  0.1762013  0.1762013  0.1762013
[2,] 0.3538152 -0.7308157 -1.2421102 -1.2421102 -1.2421102
[3,] 0.3538152 -0.7308157 -1.2421102 -1.1770919 -1.8315592
[4,] 0.3538152 -0.7308157 -1.2421102 -1.1770919 -4.1171477

Here's your version of code for 3-dimensions:


dim(s)=c(length(unique(w)),length(unique(z)), length(unique(x)))
for (i in 1:length(unique(w))) {
  for (j in 1:length(unique(z))) {
    for (k in 1:length(unique(x))) {
       s[i,j, k]=sum(y*as.numeric((w<=unique(w)[i]))*

Here's how you can accomplish this with the same idea as my previous answer:

t1 <- outer(x, unique(x), '<=')
t2 <- outer(z, unique(z), '<=')
t3 <- outer(w, unique(w), '<=')
lapply(seq_along(unique(x)), function(idx) t(y*t1[,idx]*t2) %*% t3)

Here the output is a list (instead of array), but the output is identical, you may compare the results with "s". You should be able to take it from here.

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What if I add other indexes, say 4 more? That's why I tend to prefer using data.table, no? –  user17645 Nov 15 '13 at 0:33
Like I said in the answer, you're using the whole of "y" for each i,j. But data.table's .SD will only provide the values of "y" for the group in "by". I don't know how one would do that. Extending this to 4-more indices is straightforward using the current method I think. –  Arun Nov 15 '13 at 0:36
Would you mind giving an example how would you extend this for 3 dimensions, instead of 2? Because this would require using arrays (3 dimensions), and not standard matrices (2 dimensions). Thanks a lot –  user17645 Nov 15 '13 at 0:45
@user17645, hope this edit helps. You can extend this to your data dimensions. –  Arun Nov 15 '13 at 2:46
@user17645 given that this seems to solve your problem, efficiently, is extensible to n-dimensions (which was not part of the OP - until you edited it - you are lucky Arun has unlimited patience!) I hope you will accept the answer by pressing the green tick mark to show your appreciation for all the effort that's gone into this for you? –  Simon O'Hanlon Nov 15 '13 at 9:42
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Following @Arun argumets, I managed to nest two lapply functions to get the solution generalized to upper dimensions.

lapply(seq_along(unique(x)), function(idx){lapply(seq_along(unique(r)),
                                              function(idr) t(y*t1[,idx]*t2)%*%(t3

For adding other dimensions, I will keep nesting lapply functions. Is there a cleaner way to do this?

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