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I am trying to get around the 31-bit limit for bit operations in R. I can do this in pure R, but my issue is about implementing this in C for use in R.


For example I have the data

> x = c(2147028898, 2147515013)

where each element is at most 32 bits, unsigned, and on which I'd like to do bit operations such as (but not limited to) (x >> 20) & 0xFFF. The end goal would be using many of these kinds of operations in a single function.

The two numbers are of different bit lengths.

> log2(x)
[1] 30.99969446331090239255 31.00002107107989246515

Normal bitwise operations in R yield the following result, ie NAs are introduced for the larger of the two.

> bitwShiftR(x,20)
[1] 2047   NA
Warning message:
In bitwShiftR(x, 20) : NAs introduced by coercion
> bitwAnd(x,20)
[1]  0 NA
Warning message:
In bitwAnd(x, 20) : NAs introduced by coercion

Workaround with R package 'bitops'

The bitopspackage does what I want, but my end goal is something more advanced, and I want to be able to use C, see below.

> library(bitops)
> bitShiftR(x,20)
[1] 2047 2048

I have looked at the C code for this package, but I don't really understand it. Does it have to be that complicated, or is that just for optimization for vectorized inputs and outputs?

Workaround in C (the issue)

My code is as follows, only a simple expression so far. I have tried different types in C, but to no avail.

#include <R.h>

void myBitOp(int *x, int *result) {
    *result = (*x >> 20) & 0xFFF;

which I then compile with R CMD SHLIB myBitOp.c on a 64 bit machine.

$uname -a
Linux xxxxxxxxx 3.0.74-0.6.8-xen #1 SMP Wed May 15 07:26:33 UTC 2013 (5e244d7) x86_64 x86_64 x86_64 GNU/Linux

In R I load this with

> dyn.load("myBitOp.so")
> myBitOp <- function(x) .C("myBitOp", as.integer(x), as.integer(0))[[2]]

When I run the function I get back

> myBitOp(x[1])
[1] 2047
> myBitOp(x[2])
Error in myBitOp(x[2]) : NAs in foreign function call (arg 1)
In addition: Warning message:
In myBitOp(x[2]) : NAs introduced by coercion

So the question is, why do I get these NAs with this C code, and how do I fix it? The return value will always be much less than 31 bits btw.

Thank you!


After studying the bitops code a bit more, and going through this presentation among other links I came up with this code (bonus vectorization here)

#include <R.h>
#include <Rdefines.h>

SEXP myBitOp(SEXP x) {
    PROTECT (x = AS_NUMERIC(x) ) ;
    double *xx  = NUMERIC_POINTER(x);

    SEXP result = PROTECT(NEW_NUMERIC(length(x)));
    double *xresult = NUMERIC_POINTER(result);

    for( int i=0; i < length(x); i++) {
        xresult[i] =  (double) ((((unsigned int) xx[i]) >> 20) & 0xFFF);


Compile with R CMD SHLIB myBitOp.c

And in R:

> dyn.load("myBitOp.so")
> myBitOp <- function(x) .Call("myBitOp", x)
> myBitOp(x)
[1] 2047 2048

I don't fully understand why or how yet, but it works, well seems to work for this example at least.

share|improve this question
as.integer(x) [1] 2147028898 NA. R doesn't have an unsigned integer type. –  James Aug 13 at 11:27
Right, R doesn't have an unsigned integer type, hence the question :). Removing as.integer does't really work, or I have yet to find a combination of datatypes that does work. –  bytesinflight Aug 13 at 17:36

1 Answer 1

The second element of as.integer(x) will be NA because it's larger than .Machine$integer.max. NAOK = FALSE in your call to .C, so that NA in your input results in an error. Your call to .C will "succeed" if you set NAOK = TRUE (because, in this case, NA is technically NA_integer_, which is a special int value in C).

You'll have to be creative to get around this. You could try splitting values > 2^31-1 into two values, pass both of them to C, convert them to unsigned integers, sum them, convert the result to a signed integer, then pass back to R.

share|improve this answer
OK, I get a result now, but I also get an annoying warning.. Should I use suppressWarnings and forget about it? :) –  bytesinflight Aug 13 at 11:33
The depends entirely on what you're trying to do. 2147515013 is too large to be represented as a 32-bit signed integer, so R converts it to NA before passing it to your C code. So your C code is doing bit operations on NA, which may or may not be reasonable for your purposes. –  Joshua Ulrich Aug 13 at 11:39
I don't get it, so R thinks it's NA, but C thinks it's an integer (since it seems to work anyhow), which then R says is a problem, but it might not be? So is there a way to get around this using other datatypes? –  bytesinflight Aug 13 at 11:42
R doesn't "think" it's NA. R coerces it to NA (technically NA_integer_, which is a special int value in C). It may "work" (i.e. return a value), but it's wrong in most cases. I'm sure there are creative ways to get around this using other data types (e.g. split values > 2^31-1 into two values, pass them to C, convert them to unsigned integers, sum them, convert the result to a signed integer, then pass back to R). –  Joshua Ulrich Aug 13 at 11:50

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