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What datatype choices do we have to handle large numbers in R? By default, the size of an integer seems to be 32bit, so bigint numbers from sql server as well as any large numbers passed from python via rpy2 get mangled.

> 123456789123
[1] 123456789123
> 1234567891234
[1] 1.234568e+12

When reading a bigint value of 123456789123456789 using RODBC, it comes back as 123456789123456784 (see the last digit), and the same number when deserialized via RJSONIO, comes back as -1395630315L (which seems like an additional bug/limitation of RJSONIO).

> fromJSON('[1234567891]')
[1] 1234567891
> fromJSON('[12345678912]')
[1] -539222976

Actually, I do need to be able to handle large numbers coming from JSON, so with RJSONIO's limitation, I may not have a workaround except for finding a better JSON library (which seems like a non-option right now). I would like to hear what experts have to say on this as well as in general.

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up vote 9 down vote accepted

See help(integer):

 Note that on almost all implementations of R the range of
 representable integers is restricted to about +/-2*10^9: ‘double’s
 can hold much larger integers exactly.

so I would recommend using numeric (i.e. 'double') -- a double-precision number.

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I looked at the as.numeric() function, but was confused by the fact that mode(1) also gives "numeric" as the type, so I thought I was already dealing with them. I then tried as.numeric("123456789123456789") and saw only a few numbers printed, so assumed that it lost the precision. I didn't know about options("digits") before. – haridsv Jan 13 '10 at 1:34
Ah, yes, the digits thing. Also, if you need higher-precision or large numbers, CRAN has packages for that as e.g. the (oddly named :-) Brobdingnag package for large numbers, and there is also the gmp package to interface GNU gmp. – Dirk Eddelbuettel Jan 13 '10 at 1:39
(I know that Dirk knows this but I commenting to alert other searchers.) Newer versions of R allow a more seamless transition to integer storage as doubles. The matrix dimension are still not using that automatic mode shifting though. – 42- Mar 20 '15 at 18:41

I understood your question a little differently vs the two who posted before i did.

If R's largest default value is not big enough for you, you have a few choices (disclaimer: I have used each of the libraries i mention below, but not through the R bindings, instead through other language bindings or the native library)

The Brobdingnag package: uses natural logs to store the values; (like Rmpfr, implemented using R's new class structure). I'm always impressed by anyone whose work requires numbers of this scale.


googol <- as.brob(1e100)   

The gmp package: R bindings to the venerable GMP (GNU Multi-precision library). This must go back 20 years because i used it in University. This Library's motto is "Arithmetic Without Limits," which is a credible claim--integers, rationals, floats, whatever, right up to the limits of the RAM on your box.


x = as.bigq(8000, 21)

The Rmpfr package: R bindings which interface to both gmp (above) and MPFR, (MPFR is in turn a contemporary implementation of gmp. I have used the Python bindings ('bigfloat') and can recommend it highly. This might be your best option of the three, given its scope, given that it appears to be the most actively maintained, and and finally given what appears to be the most thorough documentation.

Note: to use either of the last two, you'll need to install the native libraries, GMP and MPFR.

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Thanks, but currently I am satisfied with the limitations of numeric datatype, though it didn't really meet my original question. I will keep your suggestion in mind and will look into them in case I need to handle larger values. – haridsv Jan 13 '10 at 19:41

After this question was asked, packages int64 by Romain Francois and bit64 by Jens Oehlschlägel are now available.

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looks like int64 is gone now – evolvedmicrobe Dec 16 '15 at 5:03
@evolvedmicrobe we use bit64 in data.table and it works well – Matt Dowle Dec 16 '15 at 19:40

Dirk is right. You should be using the numeric type (which should be set to double). The other thing to note is that you may not be getting back all the digits. Look at the digits setting:

> options("digits")
[1] 7

You can extend this:


Alternatively, you can reformat the number:

format(, digits=14)

I tested your number and am getting the same behavior (even using the double data type), so that may be a bug:

> as.double("123456789123456789")
[1] 123456789123456784
> class(as.double("123456789123456789"))
[1] "numeric"
> is.double(as.double("123456789123456789"))
[1] TRUE
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Thanks for pointing the options() and format(), they are helpful. However, these options seem to only control how the number is formatted for display, so it shouldn't change how the number is parsed while using as.double() or as.numeric(). The behavior could be a bug. – haridsv Jan 13 '10 at 1:31
I don't think that works, you are converting an integer to a double and losing precision, so you won't be able to index back into an array that refers to. – evolvedmicrobe Dec 16 '15 at 5:06

I fixed few issues related to integers in rpy2 (Python can swich from int to long when needed, but R does does not seem to be able to do that. Integer overflows should now return NA_integer_.


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I was trying to find a workaround for this issue from last two days and finally I found it today. We have 19 digits long ids in our SQL database and earlier I used RODBC to get bigint data from the server. I tried int64 and bit64, also defined options(digits=19), but RODBC kept on giving issues. I replaced RODBC with RJDBC, and while retrieving bigint data from SQL server, I manipulated SQL query by using casting bigint data to string.

So here is sample code:

#Include stats package
#set the working directory

#Getting JDBC Driver
driver <- JDBC("", "W:/Users/dev/Apps/R/Data/sqljdbc/enu/sqljdbc4.jar");

#Connect with DB
connection <- dbConnect(driver, "jdbc:sqlserver://DBServer;DatabaseName=DB;", "BS_User", "BS_Password");
#Query string

  sqlText <- paste("SELECT DISTINCT Convert(varchar(19), ID) as ID
 FROM tbl_Sample", sep="");

#Execute query
queryResults <- dbGetQuery(connection, sqlText);

With this solution, I got bigint data without any modification but it didn't work with RODBC. Now the speed of SQL server interaction with R has affected because RJDBC is slower than RODBC but its not too bad.

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