# pick a random number, always with increasing value over last random number picked

How would I efficiently go about taking a 1-by-1 ascending random sample of the values 1:n, making sure that each of the randomly sampled values is always higher than the previous value?

e.g.:

For the values 1:100, get a random number, say which is 61. (current list=61)
Then pick another number between 62 and 100, say which is 90 (current list=61,90)
Then pick another number between 91 and 100, say which is 100.
Stop the process as the max value has been hit (final list=61,90,100)

I have been stuck in loop land, thinking in this clunky manner:

``````a1 <- sample(1:100,1)

if(a1 < 100) {
a2 <- sample((a+1):100,1)
}

etc etc...
``````

I want to report a final vector being the concatenation of a1,a2,a(n):

``````result <- c(a1,a2)
``````

Even though this sounds like a homework question, it is not. I thankfully left the days of homework many years ago.

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Coming late to the party, but I think this is gonna rock your world:

``````unique(cummax(sample.int(100)))
``````
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That is truly awesome! (I've never seen `cummax` before, clearly I've never bothered reading the help for `cumsum`) –  mnel Sep 26 '12 at 11:29
+1 - consider my world rocked :-) –  thelatemail Sep 26 '12 at 21:09
Wow. Simple and brilliant –  Ricardo Saporta Feb 25 '13 at 5:01

Not particularly efficient but:

``````X <- 0
samps <- c()
while (X < 100) {
if(is.null(samps)) {z <- 1 } else {z <- 1 + samps[length(samps)]}
if (z == 100) {
samps <- c(samps, z)
} else {
samps <- c(samps, sample(z:100, 1))
}
X <- samps[length(samps)]
}
``````

samps EDIT: Trimming a little fat from it:

``````samps <- c()
while (is.null(samps[length(samps)]) ||  samps[length(samps)] < 100 ) {
if(is.null(samps)) {z <- 1 } else {z <- 1 + samps[length(samps)]}
if (z == 100) {
samps <- c(samps, z)
} else {
samps <- c(samps, sample(z:100, 1))
}
}

samps
``````
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This one works ok, though it sometimes repeats the preceding value rather than going at least one more. –  thelatemail Sep 26 '12 at 5:06
It shouldn't; about five minutes before you posted I made an edit that adds 1 each time. I tested it on 100,000 repeats and never did it repeat the preceding value. –  Tyler Rinker Sep 26 '12 at 5:11
My apologies, I missed your stealth edit. All is well now it seems. –  thelatemail Sep 26 '12 at 5:18

This uses a `while` loop and is wrapped in a function

``````# from ?sample
resample <- function(x, ...) x[sample.int(length(x), ...)]

sample_z <-  function(n){
z <- numeric(n)
new <- 0
count <- 1

while(new < n){
from <- seq(new+1,n,by=1)
new <- resample(from, size= 1)
z[count] <- new
if(new < n)  count <- count+1
}

z[1:count]
}

set.seed(1234)

sample_z(100)
## [1]  12  67  88  96 100
``````

# Edit

note the change to deal with when the new sample is 100 and the way `sample` deals with an integer as opposed to a vector for `x`

# Edit 2

Actually reading the help for `sample` gave the useful `resample` function. Which avoids the pitfalls when length(x) == 1

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I'm getting some odd results with this code, where it sometimes hits 99 and starts at a lower point again. Looking into it... –  thelatemail Sep 26 '12 at 5:04
Hmmm I see what you mean -- I will think about it! –  mnel Sep 26 '12 at 5:12
Looking good now +1 –  thelatemail Sep 26 '12 at 5:31
Due to the way `sample` changes when `x` is a single integer not a vector - altered ( tested with 1e6 samples, no errors) –  mnel Sep 26 '12 at 5:31
And now even better due to actually reading the help for sample –  mnel Sep 26 '12 at 5:38

even later to the party, but just for kicks:

``````X <- Y <- sample(100L)
while(length(X <- Y) != length(Y <- X[c(TRUE, diff(X)>0)])) {}
``````

``````> print(X)
[1]  28  44  60  98 100
``````
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