# Sampling without replacement from multiple vectors of different length using vector lengths as some sort of weight

I want to take random samples from multiple vectors of different length using vector lengths as some sort of weight, such that more samples are drawn from vectors of larger sizes when compared to smaller ones (proportional sampling of sorts).

To illustrate my point please consider this:

``````# Generating 100 different individuals
vec1 <- rep( letters , length.out = 100 )
vec2 <- c(1:100)

# Join two above vectors
students <- paste( vec1 , vec2 , sep="" )
``````

The above produces a giant vector of 100 students. Now I am trying to generate 10 random vectors from which the final sampling has to take place.

``````# Creating 10 vectors of different sizes
a <- split( students , sample(10, 100 , repl = TRUE) )
vec1 <- a\$`1`
vec2 <- a\$`2`
vec3 <- a\$`3`
vec4 <- a\$`4`
vec5 <- a\$`5`
vec6 <- a\$`6`
vec7 <- a\$`7`
vec8 <- a\$`8`
vec9 <- a\$`9`
vec10 <- a\$`10`
``````

So, now I have 10 vectors (vec1...vec10) of varying sizes. My goal is to get a final vector with a total of 50 random samples from all the vectors, such that when sampling is done it would be wrt vector length i.e., proportional sampling.

Is something like this possible?

Apologies if this has been asked before!

This will get you approximately 50 students (depending on how `a` was split)

``````new = unlist(lapply(a, function(x) sample(x, round(length(x)/2))))
``````

To get exactly 50 each time, you can do this

``````ll = sapply(a, length)   # Get length of each vector in "a"
target = 50
new_ll = 0
while (sum(new_ll) != target)
new_ll = round(ll * target / sum(ll) + runif(length(ll), -0.5, 0.5))

new = unlist(lapply(1:length(a), function(i) sample(a[[i]], new_ll[i])))
``````

Explanation: Get the length of each vector in `a` and assign to `ll`. This amounts to doing `ll[1] = length(vec1); ll[2] = length(vec2)` and so on. We need to sample a certain amount from each vector in `a` such that we get 50 elements (`target`). This amount is determined with `new_ll`. It is approximately equal to `target / num_students` times each vector length.

Since this does not guarantee that `target` students are selected each time, we add a little jitter with `runif` to move the numbers around slightly, and we continue looping until the the sum of `new_ll` is equal to `target`.

The final line then iterates `i` from 1 through 10 (or the number of vectors in `a`) and samples `new_ll[i]` from each vector `a[[i]]`.

• Thanks for your reply! But here, the sampling is done from `a` as a whole or does it go list by list within `a`, in form of `x`? Also, why have you chosen `length(x)/2`? – Shab86 Nov 14 '18 at 23:43
• `lapply` and `sapply` perform functions over a list (the list being `a`), so there is no need to split it into ten objects before hand. The `x` is the argument to the custom function used within `lapply` and would equal each vector from `a`. I use `length(x)/2` since 50 is half of 100, so about half of each vector should be randomly selected. – mickey Nov 14 '18 at 23:46
• Awesome reply Mickey! Thanks a ton for your detailed explanations as well. Is the `runif` there to add bit off as you say, jitter in selecting a random length (50% or less) from each vector in `a`? So that when running the `lapply`, for each vector we would sample elements from each vector in `a`, of length `new_ll`. – Shab86 Nov 15 '18 at 0:06
• Also, one query! This answer of yours especially adding the jitter, was highly inspired one. How did you think about this one? I am learning R now via datacamp & simultaneously using for data analysis @ work. So, I was wondering how does one develop such lateral thinking especially when it comes to R prog? – Shab86 Nov 15 '18 at 0:10
• To your question about the jitter: yes, it's meant to deal with odd-lengthed vectors in `a` (e.g. should you choose 4 or 5 elements from a 9-length vector if you want half of them?). Coming up with the `runif` was a bit lucky on my part (and it isn't the only way to do things), I just wanted to tweak the sample lengths a bit until it was guaranteed 50 would be chosen. As for lateral thinking, I think you give me too much credit, but you can pick up the quirks and develop your own style by playing around a lot in R and just trying all sorts of random approaches. – mickey Nov 15 '18 at 0:19