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):**