The help page for ?is.integer has a note about a function that will tell us if a value is an integer:

is.wholenumber <-
   function(x, tol = .Machine$double.eps^0.5)  abs(x - round(x)) < tol

What could be the argument to use sqrt(eps) as tolerance here? Also, is there a good reason to use anything else than tol=0?

The background is my answer on this question. Some commenters objected to this function.

My simple minded hypothesis: this is done to make it close in behavior to print (which has a default of 7 decimal digits). E.g.:

> 1.000005
[1] 1.000005
> 1.0000000005
[1] 1
> is.wholenumber(1.000005)
> is.wholenumber(1.0000000005)
[1] TRUE

It does not work perfectly though:

> 1.00000005
[1] 1
> is.wholenumber(1.00000005)

There is a better argument in the comments below: the sqrt(eps) may be a (rough) estimate of the round-off error caused by floating-point operations.

  • 6
    It has nothing to do with printing. It's roughly the amount of precision you can expect from double floating point arithmetic. – Joshua Ulrich Mar 13 '16 at 16:04
  • 1
    Someone voted to close this question. Can you please explain why? Thanks. (Eager to learn what rule I disobeyed). – Erwin Kalvelagen Mar 13 '16 at 16:17
  • @JoshuaUlrich Thanks. That actually makes sense. – Erwin Kalvelagen Mar 13 '16 at 16:58
  • @Erwin Good point. The voters seem to think that the question is “primarily opinion based”. Of course that’s wrong. – Konrad Rudolph Mar 14 '16 at 0:08
  • 1
    Looks to me these votes are more "primarily opinion based" than my question. – Erwin Kalvelagen Mar 14 '16 at 0:21


> is.wholenumber(0.6/0.2, tol=0)
> is.wholenumber(0.6/0.2)
[1] TRUE

While 3 == 0.6/0.3 exactly in reality, it is not so in floating point representation.

From the helpfile for "=="

For numerical and complex values, remember ‘==’ and ‘!=’ do not allow for the finite representation of fractions, nor for rounding error. Using ‘all.equal’ with ‘identical’ is almost always preferable.

The default tolerance for is.wholenumber is set to the same amount as in all.equal:

 ## S3 method for class 'numeric'
 all.equal(target, current,
           tolerance = .Machine$double.eps ^ 0.5, scale = NULL,
           ..., check.attributes = TRUE)

This means that the default behavior of is.wholenumber is comparable to

isTRUE(all.equal(0,abs(x - round(x))))

To take our example full circle

> x <- 0.6/0.2
> x
[1] 3
> round(x)
[1] 3
> x == round(x)
> isTRUE(all.equal(0,x-round(x)))
[1] TRUE
> isTRUE(all.equal(0,x-round(x), tol=0))

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