# How to check if each element in a vector is integer or not in R?

Say, I have a vector y, and I want to check if each element in y is integer or not, and if not, stop with an error message. I tried is.integer(y), but it does not work.

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It's sort of a hard question to define what exactly an "integer" is or not -- you need to clarify integer in the sense of "whole number" vs integer the data type. You rarely deal with the data type integer directly in R (but that's what is.integer tests for) -- take a look at is.whole() provided by Martin Maechler here: stat.ethz.ch/pipermail/r-help/2003-April/032471.html –  mweylandt Apr 11 '12 at 21:06
When you stop do you want to know where you stopped... i.e. which one wasn't an integer first? A vector only contains one data type. So, you can't mean integer the type, only integer as in a whole number. Even that's a bit problematic because not all whole numbers are whole numbers exactly. You also need a tolerance of deviance from exactly a whole number. Add the answers to those things to your question. –  John Apr 11 '12 at 21:15

The simplest (and fastest!) thing is probably this:

``````stopifnot( all(y == floor(y)) )
``````

...So trying it out:

``````y <- c(3,4,9)
stopifnot( all(y == floor(y)) ) # OK

y <- c(3,4.01,9)
stopifnot( all(y == floor(y)) ) # ERROR!
``````

If you want a better error message:

``````y <- c(3, 9, NaN)
if (!isTRUE(all(y == floor(y)))) stop("'y' must only contain integer values")
``````
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Updated custom error message version to handle NA/NaN... –  Tommy Apr 11 '12 at 22:34

you could do:

``````   y <- c(3,3.1,1,2.3)
(y - floor(y)) == 0
[1]  TRUE FALSE  TRUE FALSE
``````

or

``````   (y - round(y)) == 0
``````

and if you want a single `TRUE` or `FALSE` for the whole thing, put it in `all()`, e.g.:

``````   all((y - round(y)) == 0)
[1] FALSE
``````
-

Not sure which is faster Tim's way or this, but:

``````> x <- 1:5
> y <- c(x, 2.0)
> z <- c(y, 4.5)
> all.equal(x, as.integer(x))
[1] TRUE
> all.equal(y, as.integer(y))
[1] TRUE
> all.equal(z, as.integer(z))
[1] "Mean relative difference: 0.1111111"
>
``````

or:

``````all((z - as.integer(z))==0)
``````
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You could use `identical()` instead of `all.equal()`, since `all.equal(3.00000001,3L)` is not really `TRUE`. –  BenBarnes Apr 11 '12 at 21:17
@BenBarnes `identical(y, as.integer(y))` returns `FALSE` for me, but yeah, you are correct. The subtraction technique is probably a little more fool proof... –  Justin Apr 11 '12 at 21:36
I think @mweylandt and @John's comments about the ambiguity of the question are right on (and that's what I was trying to get at). `is.integer(2.0)` is `FALSE` as R sees it, but for other intents and purposes, it's a fine integer. –  BenBarnes Apr 11 '12 at 22:08
@BenBarnes Right again, more detail from the asker would help to determine what the correct approach(es) is/are. –  Justin Apr 11 '12 at 22:16

I went in a completely different direction then Tim (I like his better though my approach works on a mixed vector that's a character vector with integers etc.):

``````int.check <- function(vect) {
vect <- as.character(vect)
sapply(vect, function(x) all(unlist(strsplit(x, ""))%in% 0:9))
}

x <- c(2.0, 1111,"x", 2.4)
int.check(x)
``````

EDIT: altered the function as it only worked on character vectors.

This works on vectors of the class character as well in case you have a character vector with various number intermixed but that have been coerced to character.

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...it is very slow though. `y<-1:1e5; system.time( int.check(y) )` takes about 1.8 seconds. My version takes 0.01 or less ;-) –  Tommy Apr 11 '12 at 22:09
Oh yeah it's definitely not the way to go if you have a numeric vector, just a different take But see how your approach works on `y<-c(1:1e5, "x")` ; ) –  Tyler Rinker Apr 11 '12 at 22:14
PS I get 4.12 seconds not too bad though. –  Tyler Rinker Apr 11 '12 at 22:18
BTW, shouldn't "1e6" be considered integer? `int.check("1e6")` returns FALSE. –  Tommy Apr 11 '12 at 22:31
touche : ) Though int.check(1e6) works –  Tyler Rinker Apr 11 '12 at 22:41

Here's another way (using the same trick as Justin of comparing each number to that number coerced into the 'integer' type):

``````R> v1 = c(1,2,3)
R> v2 = c(1,2,3.5)
R> sapply(v1, function(i) i == as.integer(i))
[1] TRUE TRUE TRUE
R> sapply(v2, function(i) i == as.integer(i))
[1]  TRUE  TRUE FALSE
``````

``````R> all(sapply(v2, function(i) i == as.integer(i)))
[1] FALSE
``````
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If you have floating-point representation error, try:

``````round( y, TOLERANCE.DIGITS ) %% 1 == 0
``````

In my application, I had seriously brutal floating-point representation error, such that:

``````> dictionary\$beta[3]
[1] 89
> floor(dictionary\$beta[3])
[1] 88
> as.integer( dictionary\$beta )[3]
[1] 88
> dictionary\$beta[3] %% 1
[1] 1
``````

the remainder divided by one was one. I found that I had to round before I took the integer. I think all of these tests would fail in the case where you wanted the above 89 to count as an integer. The "all.equal" function is meant to be the best way to handle floating-point representation error, but:

``````all.equal( 88, 89 );
``````

as in my case, would have (and did) given a false negative for an integer value check.

EDIT: In benchmarking, I found that:

``````(x == as.integer(x))
``````

was universally the best performer.

``````(x == floor(x))
((x - as.integer(x)) == 0)
``````

usually worked well, often just as fast.

``````(x %% 1 <= tolerance)
``````

works, but not as quickly as the others

``````!(is.character(all.equal(x, as.integer(x))))
``````

when the vector wasn't integers, had terrible performance (certainly because it goes to the trouble of estimating the difference).

``````identical(x, as.integer(x))
``````

when the vector was all integer values, returned the incorrect result (assuming the question was meant to check for integer values, not integer types).

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checking the following helps with a crisp if condition which we can use on scripting.

``````sff <- 5

if(!(is.integer(sff) == is.character(sff))){
sff
} else {
"hello"
}
``````

gives

``````hello
``````

`sff <- 'a'` gives `'a'` as the result.

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Can you explain what the condition is doing? I cant. –  eckes May 7 '14 at 23:33