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Wondering what the fastest way is to detect if a vector has at least 1 NA? I've been using:
sum( data ) ) > 0
But that requires examining each element, coercion , and the sum function.

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All - thanks to everyone for helping on this question. I love the R are a truly passionate and smart group of people and I'm grateful to have your support. – SFun28 Jul 2 '11 at 4:04
up vote 7 down vote accepted

The newer versions of R have anyNA() as an option. On atomic vectors this will stop after the first NA instead of going through the entire vector as would be the case with any( Borrowing Joran's example:

x <- y <- runif(1e7)
x[1e4] <- NA
y[1e7] <- NA
microbenchmark::microbenchmark(any(, anyNA(x), any(, anyNA(y), times=10)
# Unit: microseconds
#           expr        min         lq        mean      median         uq
#  any(  13444.674  13509.454  21191.9025  13639.3065  13917.592
#       anyNA(x)      6.840     13.187     13.5283     14.1705     14.774
#  any( 165030.942 168258.159 178954.6499 169966.1440 197591.168
#       anyNA(y)   7193.784   7285.107   7694.1785   7497.9265   7865.064

Notice how it is substantially faster even when we modify the last value of the vector. A big part of the savings, in addition to stopping early, is that we don't need to create and allocate memory for an entire logical vector the size of our numeric vector.

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I'm thinking:


should be slightly faster.

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This is the first I'm hearing of the "any" function. thanks! – SFun28 Jul 1 '11 at 18:43
although it still requires iterating through each element. wondering if there's a first() function or something like that that stops once a condition is met – SFun28 Jul 1 '11 at 18:46
There is also the all() function that works as expected btw. Might be useful (not for this problem but in general). – Sacha Epskamp Jul 1 '11 at 19:00
any and all do stop iterating when they reach a TRUE or a FALSE respectively; see checkValues in ; the still coerces everything though. – Aaron Jul 1 '11 at 19:35
Aaron, the remaining cost is the which gets computed first, and for all elements of data irrespective of whether an early one is in fact NA. We do improve on that with the Rcpp sugar version of (which is implemented in C++ for use via Rcpp). See my answer for more. – Dirk Eddelbuettel Jul 1 '11 at 20:51

We mention this in some of our Rcpp presentations and actually have some benchmarks which show a pretty large gain from embedded C++ with Rcpp over the R solution because

  • a vectorised R solution still computes every single element of the vector expression

  • if your goal is to just satisfy any(), then you can abort after the first match -- which is what our Rcpp sugar (in essence: some C++ template magic to make C++ expressions look more like R expressions, see this vignette for more) solution does.

So by getting a compiled specialised solution to work, we do indeed get a fast solution. I should add that while I have not compared this to the solutions offered in this SO question here, I am reasonably confident about the performance.

Edit And the Rcpp package contains examples in the directory sugarPerformance. It has an increase of the several thousand of the 'sugar-can-abort-soon' over 'R-computes-full-vector-expression' for any(), but I should add that that case does not involve but a simple boolean expression.

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Is there a reason why R's any computes every single element, rather than stopping at the first instance? – joran Jul 1 '11 at 21:30
R's any doesn't know what's inside it; it just evaluates whatever its argument is (all of it) and then applies any to it, which does stop at the first FALSE, but again, only after evaluating all of its argument. Dirk's Rcpp sugar version of any (as I understand it) does know how to evaluate what's inside of it term by term (at least for some expressions, anyway) so it can check each term for TRUE/FALSE as it's evaluated in turn. – Aaron Jul 2 '11 at 2:06
@Dirk - very cool. It seems that the most efficient way to do this is with embedded c++...or is that cheating since its not a pure R answer =) thanks for the link to Rcpp! – SFun28 Jul 2 '11 at 4:01

One could write a for loop stopping at NA, but the system.time then depends on where the NA is... (if there is none, it takes looooong)

x <- sample(c(1:5, NA), 100000000, replace = TRUE)

nacount <- function(x){
  for(i in 1:length(x)){
    if([i])) {

[1] TRUE
       User      System verstrichen 
       0.14        0.04        0.18 

       User      System verstrichen 
       0.28        0.08        0.37 

  sum( > 0
       User      System verstrichen 
       0.45        0.07        0.53 
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great idea to benchmark against the nacount function! you are right that timing depends on where the first NA is (if any). I repeated your experiment except I placed a single NA at the end of the long vector. here are the results: nacount(x) = 86.14 , any( = .4, sum( > 0 = 1.64. nacount (as expected) is horrible in this case. what's more interesting is how much better any(...) is than sum(...)>0 – SFun28 Jul 2 '11 at 3:55

Here are some actual times from my (slow) machine for some of the various methods discussed so far:

x <- runif(1e7)
x[1e4] <- NA

system.time(sum( > 0)
> system.time(sum( > 0)
   user  system elapsed 
  0.065   0.001   0.065 

> system.time(any(
   user  system elapsed 
  0.035   0.000   0.034

> system.time(match(NA,x))
  user  system elapsed 
 1.824   0.112   1.918

system.time(NA %in% x) 
> system.time(NA %in% x)
  user  system elapsed 
 1.828   0.115   1.925 

system.time(which( == TRUE))
> system.time(which( == TRUE))
  user  system elapsed 
 0.099   0.029   0.127

It's not surprising that match and %in% are similar, since %in% is implemented using match.

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thanks for pulling this together. I think it shows that any(...) is a fantastic, pure R solution. – SFun28 Jul 2 '11 at 4:02

You can try:

d <- c(1,2,3,NA,5,3)

which( == TRUE, arr.ind=TRUE)
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I think == TRUE is equivalent to just stating – SFun28 Jul 1 '11 at 18:45

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