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How can I use apply or a related function to create a new data frame that contains the results of the row averages of each pair of columns in a very large data frame?

I have an instrument that outputs n replicate measurements on a large number of samples, where each single measurement is a vector (all measurements are the same length vectors). I'd like to calculate the average (and other stats) on all replicate measurements of each sample. This means I need to group n consecutive columns together and do row-wise calculations.

For a simple example, with three replicate measurements on two samples, how can I end up with a data frame that has two columns (one per sample), one that is the average each row of the replicates in dat$a, dat$b and dat$c and one that is the average of each row for dat$d, dat$e and dat$f.

Here's some example data

dat <- data.frame( a = rnorm(16), b = rnorm(16), c = rnorm(16), d = rnorm(16), e = rnorm(16), f = rnorm(16))

            a          b            c          d           e          f
1  -0.9089594 -0.8144765  0.872691548  0.4051094 -0.09705234 -1.5100709
2   0.7993102  0.3243804  0.394560355  0.6646588  0.91033497  2.2504104
3   0.2963102 -0.2911078 -0.243723116  1.0661698 -0.89747522 -0.8455833
4  -0.4311512 -0.5997466 -0.545381175  0.3495578  0.38359390  0.4999425
5  -0.4955802  1.8949285 -0.266580411  1.2773987 -0.79373386 -1.8664651
6   1.0957793 -0.3326867 -1.116623982 -0.8584253  0.83704172  1.8368212
7  -0.2529444  0.5792413 -0.001950741  0.2661068  1.17515099  0.4875377
8   1.2560402  0.1354533  1.440160168 -2.1295397  2.05025701  1.0377283
9   0.8123061  0.4453768  1.598246016  0.7146553 -1.09476532  0.0600665
10  0.1084029 -0.4934862 -0.584671816 -0.8096653  1.54466019 -1.8117459
11 -0.8152812  0.9494620  0.100909570  1.5944528  1.56724269  0.6839954
12  0.3130357  2.6245864  1.750448404 -0.7494403  1.06055267  1.0358267
13  1.1976817 -1.2110708  0.719397607 -0.2690107  0.83364274 -0.6895936
14 -2.1860098 -0.8488031 -0.302743475 -0.7348443  0.34302096 -0.8024803
15  0.2361756  0.6773727  1.279737692  0.8742478 -0.03064782 -0.4874172
16 -1.5634527 -0.8276335  0.753090683  2.0394865  0.79006103  0.5704210

I'm after something like this

            X1          X2
1  -0.28358147 -0.40067128
2   0.50608365  1.27513471
3  -0.07950691 -0.22562957
4  -0.52542633  0.41103139
5   0.37758930 -0.46093340
6  -0.11784382  0.60514586
7   0.10811540  0.64293184
8   0.94388455  0.31948189
9   0.95197629 -0.10668118
10 -0.32325169 -0.35891702
11  0.07836345  1.28189698
12  1.56269017  0.44897971
13  0.23533617 -0.04165384
14 -1.11251880 -0.39810121
15  0.73109533  0.11872758
16 -0.54599850  1.13332286

which I did with this, but is obviously no good for my much larger data frame...

apply(cbind(dat$a, dat$b, dat$c), 1, mean),
apply(cbind(dat$d, dat$e, dat$f), 1, mean)

I've tried apply and loops and can't quite get it together. My actual data has some hundreds of columns.

share|improve this question
Is it always every three columns? Are you feeding a vector of vectors of names or a vector of a vector of indices? If user user1317221_G's answer isn't what you're after perhaps you need to give more info. – Tyler Rinker May 19 '12 at 0:52
For posterity, the question above appears to be the transpose of this more recent question about applying a function to groups of rows (and has some different approaches): – Ben Jun 7 '12 at 16:41
up vote 9 down vote accepted

This may be more generalizable to your situation in that you pass a list of indices. If speed is an issue (large data frame) I'd opt for lapply with rather than sapply:

x <- list(1:3, 4:6), lapply(x, function(i) rowMeans(dat[, i])))

Works if you just have col names too:

x <- list(c('a','b','c'), c('d', 'e', 'f')), lapply(x, function(i) rowMeans(dat[, i])))


Just happened to think maybe you want to automate this to do every three columns. I know there's a better way but here it is on a 100 column data set:

dat <- data.frame(matrix(rnorm(16*100), ncol=100))

n <- 1:ncol(dat)
ind <- matrix(c(n, rep(NA, 3 - ncol(dat)%%3)), byrow=TRUE, ncol=3)
ind <- data.frame(t(na.omit(ind))), lapply(ind, function(i) rowMeans(dat[, i])))

EDIT 2 Still not happy with the indexing. I think there's a better/faster way to pass the indexes. here's a second though not satisfying method:

n <- 1:ncol(dat)
ind <- data.frame(matrix(c(n, rep(NA, 3 - ncol(dat)%%3)), byrow=F, nrow=3))
nonna <- sapply(ind, function(x) all(!
ind <- ind[, nonna], lapply(ind, function(i)rowMeans(dat[, i])))
share|improve this answer
This leaves out the last column because it doesn't have three columns to bind together. – Tyler Rinker May 19 '12 at 1:21
I'm going to ask for a better way to create the indices and link back here. – Tyler Rinker May 19 '12 at 2:33
Here's a link to that question for future searchers LINK – Tyler Rinker May 19 '12 at 2:51
Some other method for indexes: split(1:n,rep(1:n,each=3,length=n)). Here n is number of columns. – Wojciech Sobala May 19 '12 at 2:55
@WojciechSobala can you post that answer to the link above 9though you'll have to remove the last list index as it is not of length 3. – Tyler Rinker May 19 '12 at 3:15

mean for rows from vectors a,b,c


means for rows from vectors d,e,f


all in one call you get


if you only know the names of the columns and not the order then you can use:


#I dont know how much damage this does to speed but should still be quick
share|improve this answer
And what about for a data frame with hundreds of columns? How can you generalize this? – Ben May 19 '12 at 0:34
@joran, you're right, I was too hasty in preparing my question, sorry for the ambiguity. Tyler Rinker's edit has the code that does what I'm after. – Ben May 19 '12 at 1:39

The rowMeans solution will be faster, but for completeness here's how you might do this with apply:

t(apply(dat,1,function(x){ c(mean(x[1:3]),mean(x[4:6])) }))
share|improve this answer
How about row means for every consecutive set of three columns in a data frame with several hundred columns? – Ben May 19 '12 at 0:44
@Ben Reduce it to a problem you've already solved: (1) transpose (2) use plyr or data.table, (3) transpose back. (Assuming everything is numeric.) – joran May 19 '12 at 0:58
I'll give that a shot and see if I can come up with something more efficient that Tyler's solution above (unlikely, but worth a try!) – Ben May 19 '12 at 1:40
thanks for those tips, I've come up with two approaches based on your suggestions (though perhaps not exactly what you had in mind...), see above. – Ben May 19 '12 at 4:47

A similar question was asked here by @david: averaging every 16 columns in r (now closed), which I answered by adapting @TylerRinker's answer above, following a suggestion by @joran and @Ben. Because the resulting function might be of help to OP or future readers, I am copying that function here, along with an example for OP's data.

# Function to apply 'fun' to object 'x' over every 'by' columns
# Alternatively, 'by' may be a vector of groups
byapply <- function(x, by, fun, ...)
    # Create index list
    if (length(by) == 1)
        nc <- ncol(x)
        split.index <- rep(1:ceiling(nc / by), each = by, length.out = nc)
    } else # 'by' is a vector of groups
        nc <- length(by)
        split.index <- by
    index.list <- split(seq(from = 1, to = nc), split.index)

    # Pass index list to fun using sapply() and return object
    sapply(index.list, function(i)
      , list(x[, i], ...))

Then, to find the mean of the replicates:

byapply(dat, 3, rowMeans)

Or, perhaps the standard deviation of the replicates:

byapply(dat, 3, apply, 1, sd)


by can also be specified as a vector of groups:

byapply(dat, c(1,1,1,2,2,2), rowMeans)
share|improve this answer
+1 thanks, this is helpful also. – Ben May 22 '12 at 23:13

Inspired by @joran's suggestion I came up with this (actually a bit different from what he suggested, though the transposing suggestion was especially useful):

Make a data frame of example data with p cols to simulate a realistic data set (following @TylerRinker's answer above and unlike my poor example in the question)

p <- 99 # how many columns?
dat <- data.frame(matrix(rnorm(4*p), ncol = p))

Rename the columns in this data frame to create groups of n consecutive columns, so that if I'm interested in the groups of three columns I get column names like 1,1,1,2,2,2,3,3,3, etc or if I wanted groups of four columns it would be 1,1,1,1,2,2,2,2,3,3,3,3, etc. I'm going with three for now (I guess this is a kind of indexing for people like me who don't know much about indexing)

n <- 3 # how many consecutive columns in the groups of interest?
names(dat) <- rep(seq(1:(ncol(dat)/n)), each = n, len = (ncol(dat)))

Now use apply and tapply to get row means for each of the groups

dat.avs <- data.frame(t(apply(dat, 1, tapply, names(dat), mean)))

The main downsides are that the column names in the original data are replaced (though this could be overcome by putting the grouping numbers in a new row rather than the colnames) and that the column names are returned by the apply-tapply function in an unhelpful order.

Further to @joran's suggestion, here's a data.table solution:

p <- 99 # how many columns?
dat <- data.frame(matrix(rnorm(4*p), ncol = p))
dat.t <-  data.frame(t(dat))

n <- 3 # how many consecutive columns in the groups of interest?
dat.t$groups <- as.character(rep(seq(1:(ncol(dat)/n)), each = n, len = (ncol(dat))))

DT <- data.table(dat.t)
setkey(DT, groups)
dat.av <- DT[, lapply(.SD,mean), by=groups]

Thanks everyone for your quick and patient efforts!

share|improve this answer
Just to add a pointer that the lapply(.SD,mean) idiom should get much faster in v1.8.1 thanks to: i) a discovery in this question and ii) automatic .Internal()isation of mean() (wiki point 3 no longer needed). Also, .SDcols is often useful but not needed here. – Matt Dowle May 21 '12 at 16:30
@MatthewDowle thanks for your note! Good to know about .SDcols, not one I was familiar with, and great to hear data.table just keeps getting faster! – Ben May 22 '12 at 1:57

There is a beautifully simple solution if you are interested in applying a function to each unique combination of columns, in what known as combinatorics.

combinations <- combn(colnames(df),2,function(x) rowMeans(df[x]))

To calculate statistics for every unique combination of three columns, etc., just change the 2 to a 3. The operation is vectorized and thus faster than loops, such as the apply family functions used above. If the order of the columns matters, then you instead need a permutation algorithm designed to reproduce ordered sets: combinat::permn

share|improve this answer
what do you mean by "if the order matters" and what is the combinat::permn function? Can you edit the code please? – user3495945 Mar 7 at 8:30
Combinations are not the same thing as permutations: If the order of inputs matters, then it is the permutation that you seek. In this case, 'order' is in reference to the order of columns. – Adam Erickson Mar 8 at 11:53

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