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I want to generate 10000 integer random numbers between 0 and 10^12. Usually, the code would look like this:

x <- sample(0:1000000000000,10000,replace=T)

But I get following error message:

Error in 0:1000000000000 : result would be too long a vector

Is there a more memory efficient method that doesn't have to put 10^12 integers in a vector just to get a sample of size 10000? If not, is there a way to increase the max size of the vector? I'm working on a 64bit OS with 12GB of free RAM.

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Do they need to be unique? – hexafraction Nov 7 '13 at 12:15
Did you estimate the memory requirements of a vector of 10^12 elements? 12 GByte would be not enough. – knivil Nov 7 '13 at 12:20
Why do you want such a large range? Essentially what you're asking for is uniform random samples with 12-place precision, and I can't fathom the need for that sort of fine detail. – Carl Witthoft Nov 7 '13 at 12:31
up vote 11 down vote accepted

The real problem lies in the fact that you cannot store the sequence of 0:10^12 into memory. By just defining 0 and 10^12 as boundaries of a uniform distribution, you could get what you seek:

runif(10000, 0, 10^12)
[1] 136086417828 280099797063 747063538991 250189170474 589044594904
[6]  65385828028 361086657969 186271687970 338900779840 649082854623  ........

This will draw from the uniform distribution (with replacement, though I doubt that matters).

However, what you cannot see is that these are actually floating numbers.

You can use ceiling to round them up:

samp = runif(1, 0, 10^12)
[1] 19199806033
samp == 19199806033
ceiling(samp) == 19199806033
[1] TRUE

So the full code would be:

ceiling(runif(10000, 0, 10^12))

Further nitpicking:

Note that this technically will not allow 0 to be there (since 0.0001 would be rounded up), so you could just draw from

ceiling(runif(10000, -1, 10^12))

As Carl Witthoft mentions, numbers that do not fit into the size of an integer will not be integers obviously, so you cannot count on these numbers to be integers. You can still count on them to evaluate to TRUE when compared to the same floating number without decimals though.

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Except those aren't integers, since 2^31 < 10^12 . They're still floats, and you may well run into roundoff error if you're not careful. – Carl Witthoft Nov 7 '13 at 12:28
@CarlWitthoft Isn't that adressed by using ceiling? – PascalvKooten Nov 7 '13 at 12:29
is.integer(ceiling(10^11)) [1] FALSE . A float with no decimal part is NOT an integer so far as the computer is concerned. – Carl Witthoft Nov 7 '13 at 12:32
I find it indeed stunning that is.integer(ceiling(runif(1, -1, 10^12))) evaluates to FALSE. I guess it does not matter for the OP, but this could be a concern for sure. as.integer introduces NA. – PascalvKooten Nov 7 '13 at 12:35
You can still represent integral values exactly using doubles up to 2^53, which is just shy of 10^16. – James Nov 7 '13 at 12:57

I do not understand why you cannot just do...

#[1] 827013669653 233988208530 653034892160 564841068001 801391072663 683607493313
#[7] 254556497302 510154570389  51922126428 537709431414

If x has length 1, is numeric (in the sense of is.numeric) and x >= 1, sampling via sample takes place from 1:x.

N.B. This does not mean that sample has to generate the vector 1:x!! @James points out that for sampling of 0:x you will need to adjust to sample(10^12+1,10,replace=TRUE)-1

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Very much true... so much for first hacking together an answer, then thinking. – PascalvKooten Nov 7 '13 at 12:43
Though 0 is now not included. – PascalvKooten Nov 7 '13 at 12:44
sample(10^12+1,10,replace=TRUE)-1 – James Nov 7 '13 at 12:45
Of course, but then it still feels more of a hack. – PascalvKooten Nov 7 '13 at 12:45
It completely doesn't matter whether you include zero in the vector of possibilities or not, because the probability of selecting it even if it's there is only 10^(-12)! – Ben Bolker Nov 7 '13 at 13:29
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10^12 would never be returned – Marco Demaio Aug 18 '15 at 13:40
as.integer(runif(10000, min = 0, max = (1 + 10^12)))

FYI: as.integer performs a truncation, not a rounding.

In order to test if it works you can try by generating numbers in a smaller interval (i.e. from 0 to 6) and visualize the histogram of the result to see if the result is a uniform distribution, i.e.

test <- as.integer(runif(10000, min = 0, max = (6 + 1)))
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