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I use "%within[]%" <- function(x,y){x>=y[1] & x<=y[2]} (meaning x is in the compact set y) a lot in R code but I am pretty sure It is awfully slow. Do you have something quicker ? It needs to work for everything where > is defined.

EDIT: x could be a vector and y a 2 elments vector in ascending order...

EDIT2: It is strange that nobody (to my knowledge) wrote a package rOperator implementing quick C operators like %w/i[]%, %w/i[[%, ...

EDIT3: I realized that my question was too general as making assumption on x,y would modify any result, I think we should close it, thanks for your input.

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closed as not constructive by statquant, mnel, Jim Garrison, Stephan, Stefan Steinegger Feb 22 '13 at 8:49

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance.If this question can be reworded to fit the rules in the help center, please edit the question.

Do you mean that y is always a two-elements vector, with y[1]<y[2] ? –  juba Feb 21 '13 at 12:53
function(…){return(…)} => function(…) … –  Konrad Rudolph Feb 21 '13 at 12:56
You probably want & instead of &&. –  Roland Feb 21 '13 at 12:59
Well && seems a bit faster than &, and you don't seem to need vector operations here, unless x is a vector. –  juba Feb 21 '13 at 13:03

4 Answers 4

up vote 6 down vote accepted
"%within[]%" <- function(x,y){x>=y[1] & x<=y[2]}

x <- 1:10
y <- c(3,5)

x %within[]% y
"%within[]2%" <- function(x,y) findInterval(x,y,rightmost.closed=TRUE)==1
x %within[]2% y


microbenchmark(x %within[]% y,x %within[]2% y)

Unit: microseconds
             expr   min    lq median    uq    max
1  x %within[]% y 1.849 2.465 2.6185 2.773 11.395
2 x %within[]2% y 4.928 5.544 5.8520 6.160 37.265

x <- 1:1e6
microbenchmark(x %within[]% y,x %within[]2% y)

Unit: milliseconds
             expr      min       lq   median       uq      max
1  x %within[]% y 27.81535 29.60647 31.25193 56.68517 88.16961
2 x %within[]2% y 20.75496 23.07100 24.37369 43.15691 69.62122

This probably is a job for Rcpp.

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+1 TIL how to use microbenchmark correctly. –  juba Feb 21 '13 at 13:21

You can get a small performance improvement with a simple Rcpp implementation:


withinR <- function(x,y) x >= y[1] & x <= y[2]
cppFunction("LogicalVector withinCpp(const NumericVector& x, const NumericVector& y) {
  double min = y[0], max = y[1];

  int n = x.size();
  LogicalVector out(n);

  for(int i = 0; i < n; ++i) {
    double val = x[i];
    if (NumericVector::is_na(val)) {
      out[i] = NA_LOGICAL;
    } else {
      out[i] = val >= min & val <= max;

  return out;

x <- sample(100, 1e5, rep = T)

stopifnot(all.equal(withinR(x, c(25, 50)), withinCpp(x, c(25, 50))))

  withinR(x, c(25, 50)),
  withinCpp(x, c(25, 50))

The C++ version is about 4x faster on my computer. You could probably tweak it further still if you wanted to use more Rcpp tricks, but this seems pretty fast already. Even the R version would need to be called very frequently before it was likely to a bottleneck.

# Unit: microseconds
#                      expr  min   lq median   uq  max
# 1 withinCpp(x, c(25, 50))  635  659    678 1012 27385
# 2   withinR(x, c(25, 50)) 1969 2031   2573 2954 4082
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Tree-based structures offer better performances if x contains many values. If you can limit your requirements to numerical values, there are 2 options

An implementation of interval trees for integers can be found in the Bioconductor package IRanges.

By default RSQLite is compiling the embedded SQLite library with rtrees enabled. This could be used with any numerical value.

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I realized that this is more complex than I thought, ideally this should work with numeric (so everything like date,POSIXct...) but also character (with lexicographic order). –  statquant Feb 21 '13 at 13:10
Converting dates to integers (milliseconds since epoch) is trivial (your pseudonym suggests that you are not working with historical or pre-historical dates). Strings are little special and how to do it would require design decisions from you (prefix matching ? suffix matching ? strictly identical lengths ?) –  lgautier Feb 21 '13 at 13:18
Yep, not sure a conversion is even needed as POSIXct and Date are stored as double (strangely for Date) internally. Understood for strings... –  statquant Feb 21 '13 at 13:25

Well, I don't know if this could be considered slow or not, but here is a bit of benchmark :

R> within <- function(x,y){return(x>=y[1] & x<=y[2])}
R> microbenchmark(within(2,c(1,5)))
Unit: microseconds
               expr   min     lq median    uq    max neval
 within(2, c(1, 5)) 2.667 2.8305 2.9045 2.969 15.818   100

R> within2 <- function(x,y) x>=y[1] & x<=y[2]
R> microbenchmark(within2(2,c(1,5)))
Unit: microseconds
                expr   min     lq median    uq    max neval
 within2(2, c(1, 5)) 2.266 2.3205  2.398 2.483 12.472   100

R> microbenchmark(2>=1 & 2<=5)
Unit: nanoseconds
            expr min    lq median  uq  max neval
 2 >= 1 & 2 <= 5 781 821.5    850 911 5701   100

So it seems that omitting the return, as suggested by Konrad Rudolph, speeds up things a bit. But not writing a function is much faster.

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My suggestion wasn’t actually so much about performance as about style (the return function call is simply redundant here). But yes, not surprised by these results. –  Konrad Rudolph Feb 21 '13 at 13:05
&& only compares the first elements of the vectors: 1:4 < 4 && 1:4 > 2 gives FALSE and not (FALSE, FALSE, TRUE, FALSE) –  Jan van der Laan Feb 21 '13 at 13:08
@JanvanderLaan Yes, I know, but if you don't want a vectorized operation, && is a bit faster. –  juba Feb 21 '13 at 13:10
@juba: I edited for vectors as my use case is more likely vectorial. –  statquant Feb 21 '13 at 13:16
@statquant Ok, updated my answer accordingly. –  juba Feb 21 '13 at 13:19

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