Beware of `sample`

for splitting if you look for reproducible results. If your data changes even slightly, the split will vary even if you use `set.seed`

. For example, imagine the sorted list of IDs in you data is all the numbers between 1 and 10. If you just dropped one observation, say 4, sampling by location would yield a different results because now 5 to 10 all moved places.

An alternative method is to use a hash function to map IDs into some pseudo random numbers and then sample on the mod of these numbers. This sample is more stable because assignment is now determined by the hash of each observation, and not by its relative position.

For example:

```
require(openssl) # for md5
require(data.table) # for the demo data
set.seed(1) # this won't help `sample`
population <- as.character(1e5:(1e6-1)) # some made up ID names
N <- 1e4 # sample size
sample1 <- data.table(id = sort(sample(population, N))) # randomly sample N ids
sample2 <- sample1[-sample(N, 1)] # randomly drop one observation from sample1
# samples are all but identical
sample1
sample2
nrow(merge(sample1, sample2))
```

[1] 9999

```
# row splitting yields very different test sets, even though we've set the seed
test <- sample(N-1, N/2, replace = F)
test1 <- sample1[test, .(id)]
test2 <- sample2[test, .(id)]
nrow(test1)
```

[1] 5000

```
nrow(merge(test1, test2))
```

[1] 2653

```
# to fix that, we can use some hash function to sample on the last digit
md5_bit_mod <- function(x, m = 2L) {
# Inputs:
# x: a character vector of ids
# m: the modulo divisor (modify for split proportions other than 50:50)
# Output: remainders from dividing the first digit of the md5 hash of x by m
as.integer(as.hexmode(substr(openssl::md5(x), 1, 1)) %% m)
}
# hash splitting preserves the similarity, because the assignment of test/train
# is determined by the hash of each obs., and not by its relative location in the data
# which may change
test1a <- sample1[md5_bit_mod(id) == 0L, .(id)]
test2a <- sample2[md5_bit_mod(id) == 0L, .(id)]
nrow(merge(test1a, test2a))
```

[1] 5057

```
nrow(test1a)
```

[1] 5057

sample size is not exactly 5000 because assignment is probabilistic, but it shouldn't be a problem in large samples thanks to the law of large numbers.

See also: http://blog.richardweiss.org/2016/12/25/hash-splits.html
and https://crypto.stackexchange.com/questions/20742/statistical-properties-of-hash-functions-when-calculating-modulo

`x`

can be the index (row/col nos. say) of your`data`

.`size`

can be`0.75*nrow(data)`

. Try`sample(1:10, 4, replace = FALSE, prob = NULL)`

to see what it does. – harkmug Jun 19 '13 at 20:09