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I am trying to use R to find all possible ways to partition the vector x of length n into at most m partitions . I know how to do then when n is small:

x <- c(10, 20, 30, 40)
n <- length(x)
m <- 3

# In how many ways can we partition n objects into at most m patitions
parts <- restrictedparts(n, m)
sets <- setparts(parts)

In this example the value of sets is:

[1,] 1 1 1 1 2 1 1 1 1 1 1 2 2 2
[2,] 1 1 1 2 1 2 1 2 2 1 2 1 1 3
[3,] 1 2 1 1 1 2 2 1 3 2 1 3 1 1
[4,] 1 1 2 1 1 1 2 2 1 3 3 1 3 1

Each columns of sets tells me, for each unique arrangement, into which partition each item in x should be allocated.

The problem occurs when n is large:

n <- 15
m <- 4
parts <- restrictedparts(n, m)
# This expression will max out your CPU usage and eventually run out of memory.
sets <- setparts(parts)

How can I do this operation without running out of memory? I doubt there's a fast way to do it, so can I suspect I'll have to do it in batches and write to the disk.

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when you say into at least m partitions, you mean at most? – flodel Jan 13 '13 at 16:40
Yes I do, thanks for pointing out the typo. – Divinenephron Jan 13 '13 at 16:41
Tip: the description of the nextpart function in the partition library documentation is probably the key. – Divinenephron Jan 13 '13 at 16:49
The last part of code written above is giving memory allocation errors on my machine (OSX 10.8.2, R 2.15.1, partition 1.9-12, 4GB memory). Does it work on yours? – Divinenephron Jan 13 '13 at 16:58
I'm seeing the same result as you. I do not think @flodel is correct is his statement re: the upper bound for this problem. If you first look at restrictedparts(15,4) and then use choose(.,.) to look at the numbers in each columns you can see the combinatorial explosion. I exceeded that bound by the time I got to ncol( setparts( restrictedparts(15,4)[,1:13])) and there are 54 columns in restrictedparts(15,4) – 42- Jan 13 '13 at 18:08
up vote 3 down vote accepted

If like me you are not a superstar in combinatorics but you trust that partitions has it right, then at least you can make use of the package's code to compute the final number of partitions. Here I hacked the setparts function so, instead of the partitions themselves, it returns the number of partitions:

num.partitions <- function (x) {
    if (length(x) == 1) {
        if (x < 1) {
            stop("if single value, x must be >= 1")
        else if (x == 1) {
            out <- 1
        else return(Recall(parts(x)))
    if (is.matrix(x)) {
        out <- sum(apply(x, 2, num.partitions))
    else {
        x   <- sort(x[x > 0], decreasing = TRUE)
        out <- factorial(sum(x))/(prod(c(factorial(x), 

Let's check that the function is returning the correct number of partitions:

num.partitions(restrictedparts(4, 3))
# [1] 14
ncol(setparts(restrictedparts(4, 3)))
# [1] 14

num.partitions(restrictedparts(8, 4))
# [1] 2795
ncol(setparts(restrictedparts(8, 4)))
# [1] 2795

Now let's look at your large case:

num.partitions(restrictedparts(15, 4))
# [1] 44747435

That is indeed quite a lot of partitions... Regardless of how well or not setparts is written, the output cannot fit in a single array:

sets <- matrix(1, 15, 44747435)
# Error in matrix(1, 15, 44747435) : 
#  cannot allocate vector of length 671211525

So yes, you'd have to write your own algorithm and store to a list of matrices, or if it is too much for your memory, write to a file if that's really what you want to do. Otherwise, given the rather large number of permutations and what it is you want to do with them, go back to the drawing board...

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Thanks for computing the size of partition matrix – this makes it the most useful answer. I'm sure it'd be possible to brute-force this by rewriting setparts() with a library such as ff, but I'm going to try solving my problem (the expected distribution of points in a card game) using a Monte Carlo method instead. – Divinenephron Jan 13 '13 at 21:19

If you want to calculate them in batches, it appears this may be possible for at least some of the columns. I was not able to complete a calculation of several of the individual columns in restrictedparts(15,4) on a machine like yours. Up to column 40 I could get success in batches of 5-10 columns at a time but above that there were several single columns that did report a number of columns before throwing a malloc error. So you may simply need a bigger machine. On my Mac that has 32 GB constructing the 53rd column consumed half of the memory. The estimates for number of columns on the big machine agreed with the report on the 4GB machine:

> ncol( setparts( restrictedparts(15,4)[,53]))
[1] 6306300
R(317,0xa077a720) malloc: *** mmap(size=378380288) failed (error code=12)
*** error: can't allocate region
*** set a breakpoint in malloc_error_break to debug

(I offer no opinion on whether this is a sensible project. )

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