Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm an R newbie here.

let say I have the line of code


then I want to get the value 123456 so I can print it out for documentation purposes, and if need be reenter the value sometime in the future. So how do I get that seed?

Note that I may comment the above line of code out, so I won't actually know what that the seed is at 123456. Therefore I need r to print out the location of the current seed as a single integer, not as a list of 626 integers.

share|improve this question
Wouldn't it be simpler to do seed <- 123456; set.seed(seed) and then print out and store the value of seed? –  joran Dec 21 '12 at 21:36
Yes, but I will comment out the line of code when I don't have a specific seed I want to start with. –  Joe_Schmoe Dec 21 '12 at 21:39
in fairness, there's a lot of information in that page ... –  Ben Bolker Dec 21 '12 at 21:46
@BenBolker True. I shouldn't be so snippy around the holidays. –  joran Dec 21 '12 at 21:49

3 Answers 3

up vote 12 down vote accepted

There's effectively a one-way relationship between the seed used in set.seed() and the information in .Random.seed; as ?Random.seed says and @MattTenenbaum's answer shows, the information in .Random.seed can be saved and restored. I appreciate the desire for a function that would derive a simple integer seed from the current state of .Random.seed, but in its absence, you have to save and restore the full information ... for example

save(".Random.seed",file="random_state_seed1001.RData") ## save current state
## [1] 0.9856888
## [1] 0.4126285
## [1] 0.4295392
load("random_state_seed1001.RData") ## restore state just after set.seed()
## [1] 0.9856888

As @JoshuaUlrich points out, this only works/is only safe if you don't modify the type of RNG (and type of normal deviate generator) between saving and restoring ...

A more complete solution:

save_rng <- function(savefile=tempfile()) {
    if (exists(".Random.seed"))  {
        oldseed <- get(".Random.seed", .GlobalEnv)
    } else stop("don't know how to save before set.seed() or r*** call")
    oldRNGkind <- RNGkind()

restore_rng <- function(savefile) {
    do.call("RNGkind",as.list(oldRNGkind))  ## must be first!
    assign(".Random.seed", oldseed, .GlobalEnv)

Try it out:

RNGstore <- save_rng()  ## save file name
## [1] 0.3721984
## [1] 0.04382482 0.70968402 0.65769040 0.24985572 0.30005483 0.58486663
## [7] 0.33346714 0.62201196 0.54582855 0.87979573
## [1] 0.3721984

See also: http://wiki.stdout.org/rcookbook/Numbers/Saving_the_state_of_the_random_number_generator/

share|improve this answer
This isn't really a safe solution without also ensuring the RNG kind and normal kind are currently set to the values implied by .Random.seed. –  Joshua Ulrich Dec 21 '12 at 21:56
@JoshuaUlrich, do you know if there's a worked example lying around out there somewhere of saving and restoring the complete RNG state (it's not in example(".Random.seed") as far as I can tell)? If not I might go to the trouble of editing my question, otherwise I'll just link to it ... –  Ben Bolker Dec 21 '12 at 22:04
I don't know of any such example; I doubt there is one because that's what set.seed is for. –  Joshua Ulrich Dec 21 '12 at 22:19
@JoshuaUlrich: I agree set.seed is usually the right way to go, but I can think of cases (e.g. checkpointing in the middle of a big simulation run) where one might prefer this approach ... –  Ben Bolker Dec 21 '12 at 22:50

Here's something that should work just fine in practice (but shouldn't be used for e.g. cryptography):

new.seed <- as.integer(runif(1)*2e9)
cat("Random seed: ", new.seed, "\n")

You do need to actually set the seed for this to work, so it's not quite an answer to the original question, but might be what you were looking for, as it lets you have an easily specified random seed without setting it manually with a prespecified integer.

share|improve this answer

Once you have called set.seed, you should be able to reference .Random.seed (see http://stat.ethz.ch/R-manual/R-patched/library/base/html/Random.html for further info).

A simple example:

tmp <- .Random.seed
> runif(10)
 [1] 0.2875775 0.7883051 0.4089769 0.8830174 0.9404673 0.0455565 0.5281055 0.8924190 0.5514350 0.4566147
.Random.seed <- tmp
> runif(10)
 [1] 0.2875775 0.7883051 0.4089769 0.8830174 0.9404673 0.0455565 0.5281055 0.8924190 0.5514350 0.4566147
share|improve this answer
But .Random.seed gives me a list of 626 integers. –  Joe_Schmoe Dec 21 '12 at 21:34

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.