# selecting n consequent grouped variables and apply the function in r

Here is example data:

`````` myd <- data.frame (matrix (sample (c("AB", "BB", "AA"), 100*100,
replace = T), ncol = 100))
variablenames= paste (rep (paste ("MR.", 1:10,sep = ""),
each = 10), 1:100, sep = ".")
names(myd) <- variablenames
``````

Each variable has a group, here we have ten groups. Thus the group index for the each variable in this data frame is as follows:

``````group <- rep(1:10, each = 10)
``````

Thus Variable names and group

`````` data.frame (group, variablenames)
group variablenames
1       1        MR.1.1
2       1        MR.1.2
3       1        MR.1.3
4       1        MR.1.4
5       1        MR.1.5
6       1        MR.1.6
7       1        MR.1.7
8       1        MR.1.8
9       1        MR.1.9
10      1       MR.1.10
11      2       MR.2.11
<<<<<<<<<<<<<<<<<<<<<<<<
100    10     MR.10.100
``````

Each groups means that the following steps whould be applied to group of variables seperately.

I have longer function to work the following is short example:

function considering two variables at time

``````myfun <- function (x1, x2) {
out <- NULL
out <-  paste(x1, x2, sep=":")
# for other steps to be performed here
return (out)
}
# group 1
myfun (myd[,1], myd[,2]); myfun (myd[,3], myd[,4]); myfun (myd[,5], myd[,6]);
myfun (myd[,7], myd[,8]); myfun (myd[,9], myd[,10]);
# group 2
myfun (myd[,11], myd[,12]); myfun (myd[,13], myd[,14]); .......so on to group 10 ;
``````

In this way I need to walk for variables 1:10 (i.e. in first group to perform the above action), then 11:20 (the second group). The group doesnot matter in this case number of variables in each group are divisible with number of variables (10) taken (considered) at a time (2).

However in the following example where 3 variables taken at a time - number of total variable in each group (3), 10/3, you have one variable left over at the end.

function considering three variable at time.

``````myfun <- function (x1, x2, x3) {
out <- NULL
out <-  paste(x1, x2, x3, sep=":")
# for other steps to be performed here
return (out)
}
# for group 1
myfun (myd[,1], myd[,2], myd[,3])
myfun (myd[,4], myd[,5], myd[,6])
myfun (myd[,7], myd[,8], myd[,9])
# As there one variable left before proceedomg to second group, the final group will
have 1 extra variable
myfun (myd[,7], myd[,8], myd[,9],myd[,10] )
# for group 2
myfun (myd[,11], myd[,12], myd[,13])
# and to the end all groups and to end of the file.
``````

I want to loop this process by user defined n number of variables consered at time, where n may be 1 to maximum number of variables in each group.

Edit: Just illustration to show the process (just group 1 and 2 demostrated for example):

-
while no definite answere are comming just an idea - you can create name of variable namesmat <- matrix(names(myd), nrow = length(myd) / n, byrow=TRUE ), then apply function with myd and this matrix, but I am not sure about unbalanced data... – shNIL Aug 2 '12 at 18:19

Create a function that will split your data up into appropriate lists, and apply whatever functions you want to your list.

This function will create your second grouping variable. (The first grouping variable (`group`) is provided in your question; if you change that value, you should also change `DIM` in the function below.)

``````myfun = function(LENGTH, DIM = 10) {
PATTERN = rep(1:(DIM %/% LENGTH), each=LENGTH)
c(PATTERN, rep(max(PATTERN), DIM %% LENGTH))
}
``````

Here are the groups on which we will split `myd`. In this example, we are splitting `myd` first into 10-column groups, and each group into 3-column groups, except for the last group, which will have 4 columns (3+3+4 = 10).

NOTE: To change the number of columns you're grouping by, for example, grouping by two variables at a time, change `group2 = rep(myfun(3), length.out=100)` to `group2 = rep(myfun(2), length.out=100)`.

``````group <- rep(1:10, each = 10)
# CHANGE THE FOLLOWING LINE ACCORDING
# TO THE NUMBER OF GROUPS THAT YOU WANT
group2 = rep(myfun(3), length.out=100)
``````

This is the splitting process. We first split up just by names, and match those names with `myd` to create a list of `data.frames`.

``````# Extract group names for matching purposes
temp = split(names(myd), list(group, group2))

# Match the names to myd
temp = lapply(1:length(temp),
function(x) myd[, which(names(myd) %in% temp[[x]])])

# Extract the names from the list for future reference
NAMES = lapply(temp, function(x) paste(names(x), collapse="_"))
``````

Now that we have a list, we can do lots of fun things. You wanted to paste your columns together separated by a colon. Here's how you'd do that.

``````# Do what you want with the list
# For example, to paste the columns together:
FINAL = lapply(temp, function(x) apply(x, 1, paste, collapse=":"))
names(FINAL) = NAMES
``````

Here's a sample of the output:

``````lapply(FINAL, function(x) head(x, 5))
# \$MR.1.1_MR.1.2_MR.1.3
# [1] "AA:AB:AB" "AB:BB:AA" "BB:AB:AA" "BB:AA:AB" "AA:AA:AA"
#
# \$MR.2.11_MR.2.12_MR.2.13
# [1] "BB:AA:AB" "BB:AB:BB" "BB:AA:AA" "AB:BB:AA" "BB:BB:AA"
#
# \$MR.3.21_MR.3.22_MR.3.23
# [1] "AA:AB:BB" "BB:AA:AA" "AA:AB:BB" "AB:AA:AA" "AB:BB:BB"
#
# <<<<<<<------SNIP------>>>>>>>>
#
# \$MR.1.4_MR.1.5_MR.1.6
# [1] "AB:BB:AA" "BB:BB:BB" "AA:AA:AA" "BB:BB:AB" "AB:AA:AA"
#
# \$MR.2.14_MR.2.15_MR.2.16
# [1] "AA:BB:AB" "BB:BB:BB" "BB:BB:AB" "AA:BB:AB" "BB:BB:BB"
#
# \$MR.3.24_MR.3.25_MR.3.26
# [1] "AA:AB:BB" "BB:AA:BB" "BB:AB:BB" "AA:AB:AA" "AB:AA:AA"
#
# <<<<<<<------SNIP------>>>>>>>>
#
# \$MR.1.7_MR.1.8_MR.1.9_MR.1.10
# [1] "AB:AB:AA:AB" "AB:AA:BB:AA" "BB:BB:AA:AA" "AB:BB:AB:AA" "AB:BB:AB:BB"
#
# \$MR.2.17_MR.2.18_MR.2.19_MR.2.20
# [1] "AB:AB:BB:BB" "AB:AB:BB:BB" "AB:AA:BB:BB" "AA:AA:AB:AA" "AB:AB:AB:AB"
#
# \$MR.3.27_MR.3.28_MR.3.29_MR.3.30
# [1] "BB:BB:AB:BB" "BB:BB:AA:AA" "AA:BB:AB:AA" "AA:BB:AB:AA" "AA:AB:AA:BB"
#
# \$MR.4.37_MR.4.38_MR.4.39_MR.4.40
# [1] "BB:BB:AB:AA" "AA:BB:AA:BB" "AA:AA:AA:AB" "AB:AA:BB:AB" "BB:BB:BB:BB"
#
# \$MR.5.47_MR.5.48_MR.5.49_MR.5.50
# [1] "AB:AA:AA:AB" "AB:AA:BB:AA" "AB:BB:AA:AA" "AB:BB:BB:BB" "BB:AA:AB:AA"
#
# \$MR.6.57_MR.6.58_MR.6.59_MR.6.60
# [1] "BB:BB:AB:AA" "BB:AB:BB:AA" "AA:AB:AB:BB" "BB:AB:AA:AB" "AB:AA:AB:BB"
#
# \$MR.7.67_MR.7.68_MR.7.69_MR.7.70
# [1] "BB:AB:BB:AA" "BB:AB:BB:AA" "BB:AB:BB:AB" "AB:AA:AA:AA" "AA:AA:AA:AB"
#
# \$MR.8.77_MR.8.78_MR.8.79_MR.8.80
# [1] "AA:AB:AA:AB" "AB:AA:AB:BB" "BB:BB:AA:AB" "AB:BB:BB:BB" "AB:AA:BB:AB"
#
# \$MR.9.87_MR.9.88_MR.9.89_MR.9.90
# [1] "AA:BB:AB:AA" "AA:AB:BB:BB" "AA:BB:AA:BB" "AB:AB:AA:BB" "AB:AA:AB:BB"
#
# \$MR.10.97_MR.10.98_MR.10.99_MR.10.100
# [1] "AB:AA:BB:AB" "AB:AA:AB:BB" "BB:AB:AA:AA" "BB:BB:AA:AA" "AB:AB:BB:AB"
``````
-

I suggest to recode myfun to take a matrix and use pasteCols from plotrix package.

``````library(plotrix)

myfun = function(x){
out = pasteCols(t(x), sep = ":")
# some code
return(out)
}
``````

then, its very easy: for each group, compute the index of the first and of the last column you want to use when you call myfun, using modulus and integer division:

``````rubiques_solution = function(group, myd, num_to_group){
# loop over groups
for(g in unique(group)){
var_index = which(group == g)
num_var = length(var_index)

# test to make sure num_to_group is smaller than the number of variable
if(num_var < num_to_group){
stop("num_to_group > number of variable in at least one group")
}

# number of calls to myfun
num_calls = num_var %/% num_to_group

# the idea here is that we create the first and last column
# in which we are interested for each call
first = seq(from = var_index[1], by = num_to_group, length = num_calls)
last = first + num_to_group -1
# the last call will contain possibly more varialbe, we adjust here:
last[length(last)] = last[length(last)] + (num_var %% num_to_group)

for(i in num_calls){
# maybe do something with the return value of myfun ?
myfun(myd[,first[i]:last[i]])
}
}
}

group = rep(1:10, each = 10) # same than yours
myd = data.frame (matrix (sample (c("AB", "BB", "AA"), 100*100, replace = T), ncol = 100)) # same than yours
num_to_group = 2 # this is your first example
rubiques_solution(group, myd, num_to_group)
``````

hope i understood the problem right.

-
Rubique, can you show an example of how your function is applied? – A Handcart And Mohair Aug 6 '12 at 14:46
you will not see the output because in your example you only seem to call myfun, so this is what I do, if you need just put in a list like the other answer (or in a data.frame... same thing) – Rubique Aug 6 '12 at 19:19