# Test for equality among all elements of a single vector

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, x, 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.

I use this method, which compares the min and the max, after dividing by the mean:

``````# Determine if range of vector is FP 0.
zero_range <- function(x, tol = .Machine\$double.eps ^ 0.5) {
if (length(x) == 1) return(TRUE)
x <- range(x) / mean(x)
isTRUE(all.equal(x, x, tolerance = tol))
}
``````

If you were using this more seriously, you'd probably want to remove missing values before computing the range and mean.

• I chose this one for being faster than Dirk's. I don't have millions of elements, but this should run a little quicker for me. – kmm Jan 21 '11 at 0:02
• @Kevin: what about John's solution? It's ~10x faster than Hadley's and allows you to set tolerance. Is it deficient in some other way? – Joshua Ulrich Jan 21 '11 at 15:36
• Please provide some benchmarking - I just checked mine is about the same for a vector of a million uniforms. – hadley Jan 21 '11 at 17:24
• @hadley: I was running `system.time(for(i in 1:1e4) zero_range(x))`, where `x` was from the OP. John's solution is ~10x for `x`, ~3x faster for `y` and slightly slower for `runif(1e6)`. – Joshua Ulrich Jan 21 '11 at 18:34
• @PatrickT if it fails all.equals returns a string – hadley Nov 5 '17 at 17:09

If they're all numeric values then if tol is your tolerance then...

``````all( abs(y - mean(y)) < tol )
``````

is the solution to your problem.

EDIT:

After looking at this, and other answers, and benchmarking a few things the following comes out over twice as fast as the DWin answer.

``````abs(max(x) - min(x)) < tol
``````

This is a bit surprisingly faster than `diff(range(x))` since `diff` shouldn't be much different than `-` and `abs` with two numbers. Requesting the range should optimize getting the minimum and maximum. Both `diff` and `range` are primitive functions. But the timing doesn't lie.

• Can you comment on the relative merits of subtracting off the mean compared to dividing by it? – hadley Jan 22 '11 at 3:43
• It is computationally simpler. Depending on the system, and how R is compiled and vectorized, it will be accomplished faster with less power consumption. Also, when you divide by the mean your tested outcome is relative to 1 while with subtraction it's 0, which seems nicer to me. Also, the tolerance has a more straightforward interpretation. – John Jan 22 '11 at 8:19
• But it's not even so much that division is complex as the search and sort required to extract the range is much more computationally expensive than a simple subtraction. I tested it and the above code is about 10x faster than the zero_range function Hadley (and yours is about the fastest correct answer here). The compare function of Dirk's is brutally slow. This is the fastest answer here. – John Jan 22 '11 at 8:25
• Just saw Josh's timing comments in your answer Hadley... I don't get any situations where zero_range is faster. The discrepancy is between slightly faster (maybe 20%) to 10x always in favour if this answer. It tried a number of methods. – John Jan 22 '11 at 8:38

Why not simply using the variance:

``````var(x) == 0
``````

If all the elements of `x` are equal, you will get a variance of `0`.

• `length(unique(x))=1` ends up being about twice as fast, but `var` is terse which is nice. – AdamO Jul 18 '17 at 18:04
``````> isTRUE(all.equal( max(y) ,min(y)) )
 TRUE
> isTRUE(all.equal( max(x) ,min(x)) )
 FALSE
``````

Another along the same lines:

``````> diff(range(x)) < .Machine\$double.eps ^ 0.5
 FALSE
> diff(range(y)) < .Machine\$double.eps ^ 0.5
 TRUE
``````
• I don't think this works so well for very small numbers: `x <- seq(1, 10) / 1e10` – hadley Jan 20 '11 at 21:08
• @Hadley: The OP asked for a solution that would allow specification of a tolerance, presumably because he didn't care about very small differences. all.equal can be used with other tolerances and the OP appears to understand this. – 42- Jan 20 '11 at 21:13
• I didn't express myself very clearly - in my example there is a ten-fold relative difference between the largest and smallest numbers. That's probably something you want to notice! I think numerical tolerance needs to be calculated relative to the range of the data - I have not done this in the past and it has caused problems. – hadley Jan 20 '11 at 21:19
• I don't think I misunderstood you in the slighest. I just thought the questioner was asking for a solution that would ignore a tenfold relative difference for numbers that are effectively zero. I heard him as asking for a solution that would ignore the difference between 1e-11 and 1e-13. – 42- Jan 20 '11 at 21:27
• I try and give people what they need, not what they want ;) But point taken. – hadley Jan 21 '11 at 1:21

You can use `identical()` and `all.equal()` by comparing the first element to all others, effectively sweeping the comparison across:

``````R> compare <- function(v) all(sapply( as.list(v[-1]),
+                         FUN=function(z) {identical(z, v)}))
R> compare(x)
 FALSE
R> compare(y)
 TRUE
R>
``````

That way you can add any epsilon to `identical()` as needed.

• Hideously inefficient though... (on my computer it takes about 10 second for a million numbers) – hadley Jan 20 '11 at 21:09
• No doubt. The OP was however questioning whether this could be done at all. Doing it well is a second step. And you know where I stand with loops ... ;-) – Dirk Eddelbuettel Jan 20 '11 at 21:31
• That loops are awesome? ;) – hadley Jan 21 '11 at 1:20
• What I like about this appoach is that it can be used with non numerical objects. – Luciano Selzer Jan 16 '13 at 15:01
• compare <- function(v) all(sapply( as.list(v[-1]), FUN=function(z) {isTRUE(all.equal(z, v))})) – N. McA. Mar 28 '13 at 15:23

Since I keep coming back to this question over and over, here's an `Rcpp` solution that will generally be much much faster than any of the `R` solutions if the answer is actually `FALSE` (because it will stop the moment it encounters a mismatch) and will have the same speed as the fastest R solution if the answer is `TRUE`. For example for the OP benchmark, `system.time` clocks in at exactly 0 using this function.

``````library(inline)
library(Rcpp)

fast_equal = cxxfunction(signature(x = 'numeric', y = 'numeric'), '
NumericVector var(x);
double precision = as<double>(y);

for (int i = 0, size = var.size(); i < size; ++i) {
if (var[i] - var > precision || var - var[i] > precision)
return Rcpp::wrap(false);
}

return Rcpp::wrap(true);
', plugin = 'Rcpp')

fast_equal(c(1,2,3), 0.1)
# FALSE
fast_equal(c(1,2,3), 2)
# TRUE
``````
• This is nice & +1 for speed, but I'm not convinced that comparing all elements to the 1st element is quite right. A vector can pass this test, yet the difference between max(x) and min(x) be greater than precision. For example `fast_equal(c(2,1,3), 1.5)` – dww Apr 6 '17 at 4:29
• @dww What you're pointing out is that comparison is not transitive when you have precision issues - i.e. `a == b`, `b == c` does not necessarily imply `a == c` if you're doing floating point comparisons. You can either divide your precision by the number of elements to avoid this issue, or modify the algorithm to compute `min` and `max` and using that as a stopping condition. – eddi Apr 6 '17 at 15:36

I wrote a function specifically for this, which can check not only elements in a vector, but also capable of checking if all elements in a list are identical. Of course it as well handle character vectors and all other types of vector well. It also has appropriate error handling.

``````all_identical <- function(x) {
if (length(x) == 1L) {
warning("'x' has a length of only 1")
return(TRUE)
} else if (length(x) == 0L) {
warning("'x' has a length of 0")
return(logical(0))
} else {
TF <- vapply(1:(length(x)-1),
function(n) identical(x[[n]], x[[n+1]]),
logical(1))
if (all(TF)) TRUE else FALSE
}
}
``````

Now try some examples.

``````x <- c(1, 1, 1, NA, 1, 1, 1)
all_identical(x)       ## Return FALSE
all_identical(x[-4])   ## Return TRUE
y <- list(fac1 = factor(c("A", "B")),
fac2 = factor(c("A", "B"), levels = c("B", "A"))
)
all_identical(y)     ## Return FALSE as fac1 and fac2 have different level order
``````

You do not actually need to use min, mean, or max. Based on John's answer:

``````all(abs(x - x[]) < tolerance)
``````

Here an alternative using the min, max trick but for a data frame. In the example I am comparing columns but the margin parameter from `apply` can be changed to 1 for rows.

``````valid = sum(!apply(your_dataframe, 2, function(x) diff(c(min(x), max(x)))) == 0)
``````

If `valid == 0` then all the elements are the same

## protected by zx8754Dec 22 '17 at 8:17

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