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I'm working on a dataset that consists of ~10^6 values which clustered into a variable number of bins. In the course of my analysis, I am trying to randomize my clustering, but keeping bin size constant. As a toy example (in pseudocode), this would look something like this:

data <- list(c(1,5,6,3), c(2,4,7,8), c(9), c(10,11,15), c(12,13,14));
sizes <- lapply(data, length);
for (rand in 1:no.of.randomizations) {
    rand.data <- partition.sample(seq(1,15), partitions=sizes, replace=F)

So, I am looking for a function like "partition.sample" that will take a vector (like seq(1,15)) and randomly sample from it, returning a list with the data partitioned into the right bin sizes given already by "sizes".

I've been trying to write one such function myself, since the task seems to be not so hard. However, the partitioning of a vector into given bin sizes looks like it would be a lot faster and more efficient if done "under the hood", meaning probably not in native R. So I wonder whether I have just missed the name of the appropriate function, or whether someone could please point me to a smart solution that is around :-)

Your help & time are very much appreciated! :-)




By "no.of.randomizations" I mean the actual number of times I run through the whole "randomization loop". This will, later on, obviously include more steps than just the actual sampling.

Moreover, I would in addition be interested in a trick to do the above feat for sampling without replacement.

Thanks in advance, your help is very much appreciated!

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You have left the intended value (and purpose) of "no.of.randomizations" quite ambiguous. –  BondedDust Jul 2 '12 at 4:24
Yes, I see. In fact I just mean the "number of randomizations", i.e. how many times I run through the for loop to perform any computation (including the "partition.sample" step). Sorry about that! –  Lymond Jul 2 '12 at 23:20
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3 Answers

up vote 5 down vote accepted

Revised: This should be fairly efficient. It's complexity should be primarily in the permutation step:

# A single step:
x <- sample( unlist(data)) 
list( one=x[1:4], two=x[5:8], three=x[9], four=x[10:12], five=x[13:16]) 

As mentioned above the "no.of.randomizations" may have been the number of repeated applications of this proces, in which case you may want to wrap replicate around that:

replic <- replicate(n=4, { x <- sample(unlist(data))
   list( x[1:4], x[5:8], x[9], x[10:12], x[13:15]) }  )
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Thanks DWin for the answer! This works perfectly for sampling with replacement. But is there also a tweak to get it done without replacement? I am sorry not to have been clear on this in the original question... –  Lymond Jul 2 '12 at 23:28
I do not understand, The default is for sample to work without_replacement, so that is what the current behavior is. –  BondedDust Jul 3 '12 at 3:06
Yes. But I would like to find unique permutations of the original "data" vector, partitioned into vectors of the sizes given by "sizes". In your solution, I get five subvectors, each sampled without replacement. However, across vectors, there are duplicates. I am probably not experienced enough to express the problem adaequately in the first try - I am sorry about that! Anyway, I think I have found a reasonable solution, also based on your answer, in the meantime. (See below) –  Lymond Jul 3 '12 at 10:37
Ah, perfect. Thanks-a-lot for this suggestion! :-) –  Lymond Jul 3 '12 at 14:28
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After some more thinking and googling, I have come up with a feasible solution. However, I am still not convinced that this is the fastest and most efficient way to go.

In principle, I can generate one long vector of a uniqe permutation of "data" and then split it into a list of vectors of lengths "sizes" by going via a factor argument supplied to split. For this, I need an additional ID scheme for my different groups of "data", which I happen to have in my case.

It becomes clearer when viewed as code:

data <- list(c(1,5,6,3), c(2,4,7,8), c(9), c(10,11,15), c(12,13,14));
sizes <- lapply(data, length);

So far, everything as above

names <- c("set1", "set2", "set3", "set4", "set5");

In my case, I am lucky enough to have "names" already provided from the data. Otherwise, I would have to obtain them as (e.g.)

names <- seq(1, length(data));

This "names" vector can then be expanded by "sizes" using rep:

cut.by <- rep(names, times = sizes);
[1] 1 1 1 1 2 2 2 2 3 4 4 4 5
[14] 5 5

This new vector "cut.by" can then by provided as argument to split()

rand.data <- split(sample(1:15, 15), cut.by)
[1]  8  9 14  4
[1] 10  2 15 13
[1] 12
[1] 11  3  5
[1] 7 6 1

This does the job I was looking for alright. It samples from the background "1:15" and splits the result into vectors of lengths "sizes" through the vector "cut.by".

However, I am still not happy to have to go via an additional (possibly) long vector to indicate the split positions, such as "cut.by" in the code above. This definitely works, but for very long data vectors, it could become quite slow, I guess.

Thank you anyway for the answers and pointers provided! Your help is very much appreciated :-)

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I saw this question a bit earlier and thought:

The sampling and keeping the list structure is pretty straight forward, but what about the efficiency?


Permutating list elements while keeping list structure.

Well, we just have to have some benchmarks and alternatives, as well as having something scalable and efficient...


# The common dataset.
data <- list(c(1, 5, 6, 3), c(2, 4, 7, 8), c(9), c(10, 11, 15), c(12, 13, 14))

# The answer given later by Lymond states the names are 'already provided'
names(data) <- paste("set", 1:5, sep = "")

# Dwin's direct list building method - not scalable due to hard-coding.
# Since the unlisting would capture the original names it has been
# modified to drop them.
direct.method <- function(data) {
    x <- sample(unlist(data, use.names = FALSE))
    list(one = x[1:4], two = x[5:8], three = x[9], four = x[10:12], five = x[13:16])

cut.by.method <- function(data) {
    # While
    sizes <- lapply(data, length)
    cut.by <- rep(names(data), times = sizes)
    split(sample(1:15, 15), cut.by)

# As part of base we have a 'relist' command...
relist.method <- function(data) {
    relist(sample(unlist(data)), data)

# In utils we also have 'stack' and 'unstack'...
stacking.method <- function(data) {
    stacked.data <- stack(data)
    stacked.data$values <- sample(stacked.data$values)

# And we can't forget that rapply can give back the list structure...
rapply.method <- function(data) {
    rapply(data, function(x, s) s[x], s = sample(unlist(data, use.names = FALSE)), 
        how = "list")

# And the venerable llply from plyr
llply.method <- function(data) {
    llply(data, function(x, s) s[x], s = sample(unlist(data, use.names = FALSE)))

# And the base llapply.
lapply.method <- function(data) {
    lapply(data, function(x, s) s[x], s = sample(unlist(data, use.names = FALSE)))

# And the internalized llapply sequential index method.
internal.lapply.method <- function(data) {
    ld <- length(.Internal(unlist(data, TRUE, FALSE)))
    lapply(data, function(x, sd) sd[x], sd = .Internal(sample(ld, ld, FALSE, 

Drum roll

within( benchmark( direct.method( data ),
                  cut.by.method( data ),
                  relist.method( data ),
                  stacking.method( data ),
                  rapply.method( data ),
                  llply.method( data ),
                  lapply.method( data ),
                  internal.lapply.method( data ),
                  replications = 5000,
                  columns=c('test', 'elapsed', 'replications', 'relative'),
                  order= "relative" ),
        { average = elapsed / replications} )

##                           test elapsed replications relative  average
## 1          direct.method(data)    0.19         5000    1.000 0.000038
## 8 internal.lapply.method(data)    0.23         5000    1.211 0.000046
## 7          lapply.method(data)    0.27         5000    1.421 0.000054
## 5          rapply.method(data)    0.64         5000    3.368 0.000128
## 6           llply.method(data)    0.71         5000    3.737 0.000142
## 3          relist.method(data)    1.18         5000    6.211 0.000236
## 2          cut.by.method(data)    1.43         5000    7.526 0.000286
## 4        stacking.method(data)   11.53         5000   60.684 0.002306

It looks like we have a winner!

The internalized lapply gives everything we'd want and does it almost as fast as the direct method. One interesting thing to note regarding the test set is if we know that the elements contained in the bins are sequential (as if being an index to another container of objects ) then we can do away with subsetting the unlisted data (ud) when generating the sampled data (sd) and just use the length of the unlisted list for the call to sample.

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