I was surprised to learn that R doesn't come with a handy function to check if the number is integer.

is.integer(66) # FALSE

The help files warns:

is.integer(x) does not test if x contains integer numbers! For that, use round, as in the function is.wholenumber(x) in the examples.

The example has this custom function as a "workaround"

is.wholenumber <- function(x, tol = .Machine$double.eps^0.5)  abs(x - round(x)) < tol
is.wholenumber(1) # is TRUE

If I would have to write a function to check for integers, assuming I hadn't read the above comments, I would write a function that would go something along the lines of

check.integer <- function(x) {
    x == round(x)

Where would my approach fail? What would be your work around if you were in my hypothetical shoes?

  • I would hope that if round(x) is implemented properly, the result of applying it to an integer would always be that integer... – Stephen Aug 13 '10 at 12:39
  • Take a look at the FAQ on R cran.r-project.org/doc/FAQ/… – Richie Cotton Aug 13 '10 at 16:27
  • 4
    > check.integer(9.0) [1] TRUE it's not. – Peng Peng Jul 26 '12 at 1:58
  • @PengPeng, VitoshKa fixed this in the accepted answer. – Roman Luštrik Jul 26 '12 at 6:53
  • 3
    I think there is a confusion about mathematical and computational concepts of integer. The function is.integer checks the computational concept, the check.integer user function checks the mathematical point of view. – João Daniel Nov 20 '14 at 14:08

Another alternative is to check the fractional part:



min(abs(c(x%%1, x%%1-1))) < tol,

if you want to check within a certain tolerance.

  • 1
    does the tolerance-checking suggestion really work?? x <- 5-1e-8; x%%1 gives 0.9999999 (which would imply if tol==1e-5 for example) that x is not an integer. – Ben Bolker Jan 24 '14 at 15:34
  • @BenBolker Good catch, it works for positive perturbations I think. I've changed it to an alternative solution should work. – James Jan 24 '14 at 16:23
  • 2
    @James, I think it should be min(abs(c(x%%1, x%%1-1))) < tol instead of abs(min(x%%1, x%%1-1)) < tol otherwise, you'll get FALSE for any integer... – Cath May 27 '15 at 9:37
  • @CathG Good catch. – James May 27 '15 at 9:44
  • 3
    What's wrong with as.integer(x) == x? It will not reject 3 or 3.0 like is.integer(x) would, and it will catch 3.1. – Gabi Oct 1 '15 at 19:04

Here's a solution using simpler functions and no hacks:

all.equal(a, as.integer(a))

What's more, you can test a whole vector at once, if you wish. Here's a function:

testInteger <- function(x){
  test <- all.equal(x, as.integer(x), check.attributes = FALSE)
  if(test == TRUE){ return(TRUE) }
  else { return(FALSE) }

You can change it to use *apply in the case of vectors, matrices, etc.

  • 9
    The last if else could be done with simply isTRUE(test). Indeed that is all you need to replace the if else clause and the return statements as R automatically returns the result of the last evaluation. – Gavin Simpson Mar 5 '13 at 16:00
  • 5
    testInteger(1.0000001) [1] FALSE testInteger(1.00000001) [1] TRUE – PatrickT May 25 '15 at 18:38
  • 2
    all(a == as.integer(a)) gets around this problem!' – Alex Mar 4 '17 at 5:04
  • This is not working properly! Check out the following counter-example: frac_test <- 1/(1-0.98), all.equal(frac_test, as.integer(frac_test)), isTRUE(all.equal(frac_test, as.integer(frac_test))) – tstudio May 6 '18 at 8:03

Here is one, apparently reliable way:

check.integer <- function(N){
    !grepl("[^[:digit:]]", format(N,  digits = 20, scientific = FALSE))


This solution also allows for integers in scientific notation:

> check.integer(222e3)
[1] TRUE
  • 1
    This doesn't look very reliable to me: check.integer(1e4) is TRUE, while check.integer(1e5) is FALSE. – wch Feb 14 '12 at 18:02
  • 4
    -1 This is worse than is.wholenumber, or any of the other solutions provided in other answers. These shouldn't be different: check.integer(1e22); check.integer(1e23). You can obviously change the regex to fix this, but this approach is dreadful. (Comment comes from attribution in the installr package.) – Joshua Ulrich Mar 5 '13 at 15:30
  • 1
    @PatrickT, I see. It's the default digit's argument. use format(40, scientific = FALSE, digits = 20) instead. I have updated the answer. Thanks for spotting it. – VitoshKa May 28 '15 at 16:38
  • 1
    @PatrickT You are in the realm of machine dependent rounding errors. In that respect my solution is the same as the accepted one 1.0000000000000001 == 1L [1] TRUE. But my solution is better if you already get a number in string form check.integer("1000000000000000000000000000000000001") [1] TRUE – VitoshKa Jun 1 '15 at 19:42
  • 4
    @VitoshKa loved your answer! Although there is one point that you missed, negative numbers without decimal points are also integer ;) I modified your code accordingly. – Mehrad Mahmoudian Dec 4 '15 at 23:33

Reading the R language documentation, as.integer has more to do with how the number is stored than if it is practically equivalent to an integer. is.integer tests if the number is declared as an integer. You can declare an integer by putting a L after it.

> is.integer(66L)
[1] TRUE
> is.integer(66)

Also functions like round will return a declared integer, which is what you are doing with x==round(x). The problem with this approach is what you consider to be practically an integer. The example uses less precision for testing equivalence.

> is.wholenumber(1+2^-50)
[1] TRUE
> check.integer(1+2^-50)

So depending on your application you could get into trouble that way.

  • The second line says "as.integer tests if the number is declared as an integer." but I am pretty sure you meant "is.integer". It is only a one character edit so I couldn't easily change it. – PeterVermont Mar 18 '17 at 1:23

It appears that you do not see the need to incorporate some error tolerance. It would not be needed if all integers came entered as integers, however sometimes they come as a result of arithmetic operations that loose some precision. For example:

> 2/49*49
[1] 2
> check.integer(2/49*49)
[1] FALSE 
> is.wholenumber(2/49*49)
[1] TRUE

Note that this is not R's weakness, all computer software have some limits of precision.

  • 3
    just in case some people don't quite get what happened here... if you enter as.integer(2/49*49) you get 1 !! [BTW, it is ever so frustrating that R doesn't present the result of the initial calculation as 2.0 to represent that the value has some decimal component) see... stackoverflow.com/questions/1535021/… – John Aug 13 '10 at 13:52

From Hmisc::spss.get:

all(floor(x) == x, na.rm = TRUE)

much safer option, IMHO, since it "bypasses" the machine precision issue. If you try is.integer(floor(1)), you'll get FALSE. BTW, your integer will not be saved as integer if it's bigger than .Machine$integer.max value, which is, by default 2147483647, so either change the integer.max value, or do the alternative checks...


you can use simple if condition like:

if(round(var) != var)­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­­

In R, whether a number is numeric or integer can be determined by class function. Generally all numbers are stored as numeric and to explicitly define a number as integer we need to specify 'L' after the number.


x <- 1


[1] "numeric"

x <- 1L


[1] "integer"

I hope this is what was needed. Thanks :)


I am not sure what you are trying to accomplish. But here are some thoughts:
1. Convert to integer:
num = as.integer(123.2342)
2. Check if a variable is an integer:

  • I'm just making sure the users enters an appropriate number - we're talking about the number of "subjects", which can be only an integer. – Roman Luštrik Aug 14 '10 at 17:46

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