I'm trying to test whether all elements of a vector are equal to one another. The solutions I have come up with seem somewhat roundabout, both involving checking `length()`

.

```
x <- c(1, 2, 3, 4, 5, 6, 1) # FALSE
y <- rep(2, times = 7) # TRUE
```

With `unique()`

:

```
length(unique(x)) == 1
length(unique(y)) == 1
```

With `rle()`

:

```
length(rle(x)$values) == 1
length(rle(y)$values) == 1
```

A solution that would let me include a tolerance value for assessing 'equality' among elements would be ideal to avoid FAQ 7.31 issues.

Is there a built-in function for type of test that I have completely overlooked? `identical()`

and `all.equal()`

compare two R objects, so they won't work here.

**Edit 1**

Here are some benchmarking results. Using the code:

```
library(rbenchmark)
John <- function() all( abs(x - mean(x)) < .Machine$double.eps ^ 0.5 )
DWin <- function() {diff(range(x)) < .Machine$double.eps ^ 0.5}
zero_range <- function() {
if (length(x) == 1) return(TRUE)
x <- range(x) / mean(x)
isTRUE(all.equal(x[1], x[2], tolerance = .Machine$double.eps ^ 0.5))
}
x <- runif(500000);
benchmark(John(), DWin(), zero_range(),
columns=c("test", "replications", "elapsed", "relative"),
order="relative", replications = 10000)
```

With the results:

```
test replications elapsed relative
2 DWin() 10000 109.415 1.000000
3 zero_range() 10000 126.912 1.159914
1 John() 10000 208.463 1.905251
```

So it looks like `diff(range(x)) < .Machine$double.eps ^ 0.5`

is fastest.