# Adding column or row in 3D array

I've got an array like this :

``````, , 1

[,1] [,2] [,3]
[1,]    1    4    7
[2,]    2    5    8
[3,]    3    6    9

, , 2

[,1] [,2] [,3]
[1,]   10   13   16
[2,]   11   14   17
[3,]   12   15   18

, , 3

[,1] [,2] [,3]
[1,]   19   22   25
[2,]   20   23   26
[3,]   21   24   27
``````

And I would like to add a column for each component, filled with 0, to finally have this :

``````, , 1

[,1] [,2] [,3] [,4]
[1,]    1    4    7   0
[2,]    2    5    8   0
[3,]    3    6    9   0

, , 2

[,1] [,2] [,3] [,4]
[1,]   10   13   16   0
[2,]   11   14   17   0
[3,]   12   15   18   0

, , 3

[,1] [,2] [,3] [,4]
[1,]   19   22   25   0
[2,]   20   23   26   0
[3,]   21   24   27   0
``````

Is there a simple way to do this using R?

Here is a way:

``````library(abind)
abind(x, array(0, replace(dim(x), 2, 1)), along = 2)
``````

And another one:

``````aperm(apply(x, c(1, 3), c, 0), c(2, 1, 3))
``````
• To add to the third dimension use the next form: `abind(x, array(0, replace(dim(x), 3, 1)), along = 3)` Notice the changes in two places. – user890739 Jun 23 '16 at 19:26

You could also try something like (though its a bit manual but should be faster than the other base R solution)

``````indx <- dim(df) + c(0, 1, 0)
array(sapply(1:indx[3], function(x) cbind(df[,,x], 0)), indx)
``````

Some benchmarks

``````n <- 1e5
df <- array(1:27, c(3, 3, n))

library(abind)
library(microbenchmark)

flodel1 <- function(x) abind(x, array(0, replace(dim(x), 2, 1)), along = 2)
flodel2 <- function(x) aperm(apply(x, c(1, 3), c, 0), c(2, 1, 3))
David <- function(x) {indx <- dim(x) + c(0, 1, 0) ; array(sapply(seq_len(indx[3]), function(y) cbind(x[,,y], 0)), indx)}

Res <- microbenchmark(flodel1(df),
flodel2(df),
David(df))

# Unit: milliseconds
#        expr      min        lq      mean    median       uq      max neval
# flodel1(df)  45.8943  65.37496  90.68902  90.24751 107.5991 159.9881   100
# flodel2(df) 553.4831 634.73127 673.95636 679.79709 710.0540 808.6248   100
#   David(df) 434.9524 531.85597 576.77011 555.46865 626.3344 757.9358   100
``````
• Another option somewhat similar to yours is `a2 <- array(0, dim=c(3,4,3)); for(i in 1:3) a2[,,i][,1:3] <- a1[,,i]`. I checked the timings. It is again similar to yours. – akrun Dec 24 '14 at 16:37
• `David(df) 418.48397 602.08168 735.11478 712.36795 880.6805 1199.8118 100 akrun(df) 478.91923 550.22464 765.16181 776.65756 908.5238 1159.0865 100` – akrun Dec 24 '14 at 17:04
• Other problem is that is too manual. You'll need to use `indx` as per my solution instead of `1:3` or `c(3,4,3)` so it will be general solution. Other than that, you could post it as your own answer IMO – David Arenburg Dec 24 '14 at 18:12
• Thanks, It doesn't really have much advantage to post as a separate solution, so I will leave it as such. – akrun Dec 24 '14 at 18:13

Just for the challenge, another idea (with some extra sauce) that seems valid unless I've missed something:

``````add_col_or_row = function(x, n = 1, add_col = T, fill = 0)
{
m1 = matrix(x, ncol = if(add_col) nrow(x) * ncol(x) else nrow(x), byrow = T)
m2 = matrix(fill, nrow = if(add_col) dim(x)[3] else prod(dim(x)[-1]),
ncol = if(add_col) nrow(x) * n else n)
array(t(cbind(m1, m2)),
}

aa = array(1:24, c(3, 4, 2))

aa
#, , 1
#
#     [,1] [,2] [,3] [,4]
#[1,]    1    4    7   10
#[2,]    2    5    8   11
#[3,]    3    6    9   12
#
#, , 2
#
#     [,1] [,2] [,3] [,4]
#[1,]   13   16   19   22
#[2,]   14   17   20   23
#[3,]   15   18   21   24

#, , 1
#
#     [,1] [,2] [,3] [,4] [,5] [,6]
#[1,]    1    4    7   10    0    0
#[2,]    2    5    8   11    0    0
#[3,]    3    6    9   12    0    0
#
#, , 2
#
#     [,1] [,2] [,3] [,4] [,5] [,6]
#[1,]   13   16   19   22    0    0
#[2,]   14   17   20   23    0    0
#[3,]   15   18   21   24    0    0
#

#, , 1
#
#     [,1] [,2] [,3] [,4]
#[1,]    1    4    7   10
#[2,]    2    5    8   11
#[3,]    3    6    9   12
#[4,]    0    0    0    0
#[5,]    0    0    0    0
#
#, , 2
#
#     [,1] [,2] [,3] [,4]
#[1,]   13   16   19   22
#[2,]   14   17   20   23
#[3,]   15   18   21   24
#[4,]    0    0    0    0
#[5,]    0    0    0    0
``````

And a benchmark using David Arenburg's data:

``````microbenchmark(flodel1(df), add_col_or_row(df), times = 20)
#Unit: milliseconds
#               expr      min       lq   median       uq      max neval
#        flodel1(df) 35.69158 54.88014 55.58363 56.40300 58.31250    20
# add_col_or_row(df) 19.87134 38.57792 39.11297 39.58347 44.59873    20