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I was expecting that vectors of fix-length strings of same length to have same object size in R. However, object.size give different results for 3 such character vectors:

library(stringi)
x <- rep("123456", 100)
y <- c(rep("123456", 50), rep("654321", 50))

set.seed(1)
z <- stri_rand_strings(100, 6)

object.size(x)
#> 888 bytes
object.size(y)
#> 936 bytes
object.size(z)
#> 5640 bytes

object.size(sample(z, 100, replace = T))
#> 4008 bytes

object.size(sample(z, 100, replace = T))
#> 3672 bytes

My question is why the object size for x, y and z is different?


Edit

If there is a global string pool, when we sample strings from existing string pool, they should have the same size. However this is not the case, see the last two examples of above code.

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    At a guess, it looks like string interning is used, although I didn't know R did this and don't know how to check whether/how a particular vector has had interning applied.
    – Marius
    May 2, 2017 at 3:16
  • 1
    adv-r.had.co.nz/memory.html (excerpt: The same issue also comes up with strings, because R has a global string pool. This means that each unique string is only stored in one place, and therefore character vectors take up less memory than you might expect..)
    – Gopala
    May 2, 2017 at 3:17
  • @Gopala, see my edit. If there is a global string pool, shouldn't 'object.size(sample(z, 100, replace = T))` alway have the same size?
    – mt1022
    May 2, 2017 at 3:56
  • @mt1022 No, because with replace = TRUE some strings will be repeated and others omitted, so the pool is smaller than the original and will vary dependent on the number of repeats. If you up the sample size high enough that everything gets sampled, it's consistent: object.size(sample(z, 1000, replace = TRUE))
    – alistaire
    May 2, 2017 at 4:23
  • @alistaire. It seems I mistaked the string pool. There is a string pool for each object, instead of a single string pool for all object, right?
    – mt1022
    May 2, 2017 at 4:29

1 Answer 1

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In R, the character vectors are represented as a sequence of pointers that refer to the individual character strings.

When we create a character vector, like you did, x, which gets assigned with a repeated string of length 6 (i.e. "123456", such as in your case), R will allocate memory for the string "123456" only once and then use pointers to that string for each element of the vector.

This will make the object size of x to be relatively smaller, which only accounts for the memory needed to store the pointers.

On the other hand, in the second case, the character vector y contains two different strings, which are "123456" and "654321", here, R will need to allocate memory for each of those two strings, separately, and then use pointers to these strings for each element of the vector.

Obviously, there will be a larger object size for y as compared to x because of this difference.

In your third case, the character vector z, it will contain 100 randomly generated strings, each of length 6.

These strings will be stored separately in the memory, thus, resulting into a much larger object (in size) as compared to x and y.

Let me know if this helps...

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