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Say I have 3 green balls, 2 orange balls, and 8 yellow balls. I want to order them, how can I generate all possible sequences given that all balls of the same color are identical.

In R, using gregmisc, I could do

balls<-c('orange','orange', 'green', 'green','green','yellow'...'yellow')

and then just do

g <- permutations(length(balls),length(balls),v=balls,set=F)
g.reduced <- g[!duplicated(g),]

But that seems very unnecessary.

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marked as duplicate by Brian Diggs, joran, Arun, Richard Scriven, trudyscousin Apr 29 '14 at 3:42

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

If your color vector is v, just do g <- unique(permutations(length(v),length(v),v,F)). One-liner. –  jclancy Aug 23 '12 at 8:12
Definitely more readable, but, that still doesn't get rid of the extra computational work to calculate the duplicates. As length(v) gets bigger that may not be feasible. –  JoshDG Aug 23 '12 at 13:13
Alright, how about this algorithm. I'll assume just one repeated element for simplicity, but I don't think it generalizing it will be a problem. unique everything in the first place, then calculate the permutations. You get out a matrix with the permutations of your other elements and one of the previously-not-unique elements. Expand each row to a vector of length m + 1 + n - 1 where n is the number of previously-not-unique elements and m is the number of other elements. Starting m + 1 elements from the end, place the first element in your original row and run through all the possible –  jclancy Aug 23 '12 at 13:23
This may be the same question as here: Permute all unique enumerations of a vector in R: –  Aaron Aug 23 '12 at 14:24
Yup! Thanks aaron. –  JoshDG Aug 26 '12 at 15:32

1 Answer 1

This is the most obvious way I can think of to do this. This is my approach from the comments above, but I eliminated all entries of the nonunique element from the vector instead of all but one. If I had left one in, this method would have resulted in one duplicate of every entry.

arr  # one of the rows of the matrix of permutations
l  # the length of the original un-unique'd vector
out <- list()
vec <- vector(length=l)
find.placings <- function(start, pos, vec, m) {
    if (m == 0)
    for (i in pos:(l - m + 1)) {
        vec[i] <- arr[start]
        out[[length(out) + 1]] <- find.placings(start + 1, i + 1, vec, m - 1)

Of course as this is highly recursive beware. I haven't tested it either. If you want to call the function, give it original values of (1, 1, vector(length=l), m).

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I don't understand how to use this code; what is the equivalent of the balls object in the original post? –  Aaron Aug 23 '12 at 16:52
Again, assuming the balls vector only has one entry with duplicates (the code would be more complex for more duplicate entries), you delete those entries, leaving none. Save the length of the original vector as 'l'. You then call permutations on that new vector, obtaining the matrix m. On each row arr of m, you call the above code, which will give you all the orderings of the elements of arr with spaces in between. It's a simple matter to fill those spaces (NA's, most likely) with the original duplicated element. –  jclancy Aug 24 '12 at 6:21

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