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I would like to sample values, but have a constraint in place that demands two values are at least window apart. This would be akin to sampling days in a year, but setting the window to be at least a fortnight apart. So far I've tried it like this

check.diff <- TRUE
window <- 14
while (check.diff == TRUE) {
    sampled.session <- sort(sample(1:365, size = 5, replace = FALSE))
    check.diff <- any(diff(sampled.session) < window)

This works nicely if the window constraint is small. If one specifies a rather large value, this can become an infinite loop. While I can insert all sorts of checks and maximum number of iterations, I was wondering if there's a smarter way of attacking this?

share|improve this question
Doesn't zoo have some cool way of handling this? – Ari B. Friedman Dec 7 '12 at 12:30
@AriB.Friedman That was my initial thought (hence my reference to sampling days), but came up empty. – Roman Luštrik Dec 7 '12 at 13:17
Interesting. I see a connection with graph theory and the problem of finding a clique (a complete subgraph) in an undirected graph. – flodel Dec 8 '12 at 1:36
Feel free to expand your comment and put it as a possible answer. If you can show some code, all the better! – Roman Luštrik Dec 8 '12 at 19:50
up vote 2 down vote accepted

One way to do this is by removing candidates from the population from which you take the sample:


population <- 1:356
n_samples <- 5
window <- 14

sampled_session <- rep(sample(population, 1), n_samples) # initialize the vector

for (i in, n_samples)) {
    borders <- sampled_session[i - 1] + (window - 1) * c(-1, 1)
    days_in_window <-[1], borders[2])
    population <- setdiff(population, days_in_window)
    sampled_session[i] <- sample(population, 1) 

# [1]  90 193 264 309 326

# [1] 103  71  45  17

Another way would be

population <- 1:357
n_samples <- 5
window <- 14

sampled.session <- numeric(n_samples) 
for (i in seq_len(n_samples)) {
    sampled.session[i] <- pick <- sample(population, 1)
    population <- population[-which(population < pick + window & population > pick - window)]
[1]  19  39 111 134 267
share|improve this answer
Interesting idea. If nobody has a better idea, I'll use this implementation. I hope you don't mind if I add my interpretation if your code to your post for future generations. – Roman Luštrik Dec 7 '12 at 13:53
@RomanLuštrik Your version is a good improvement. – Sven Hohenstein Dec 7 '12 at 14:24

Well, how about something like this.

window <- 14
sample_pair <- sample(1:365, size=2)
sample_pair[2] <- sample_pair[2] + window*(diff(foo)<window)

Then dump that pair into any larger sample group.

Or you could scale your entire sample set after drawing. Pseudocode:

samp.window <- diff(range(sample.set))
if (sample.window < window) sample.set <- sample.set *window/sample.window

Followed by a round or truncate if desired. Probably worth checking to make sure these distributions are uniform :-(

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