45

As the title, I'd like to know how to define a vectorized function in R.

  • Is it just by using a loop in the function?
  • Is this method efficient?
  • And what's the best practice ?
0

4 Answers 4

44

A loop at the R level is not vectorized. An R loop will be calling the same R code for each element of a vector, which will be inefficient. Vectorized functions usually refer to those that take a vector and operate on the entire vector in an efficient way. Ultimately this will involve some form of loop, but as that loop is being performed in a low-level language such as C it can be highly efficient and tailored to the particular task.

Consider this silly function to add pairwise the elements of two vectors

sillyplus <- function(x, y) {
    out <- numeric(length = length(x))
    for(i in seq_along(x)) {
        out[i] <- x[i] + y[i]
    }
    out
}

It gives the right result

R> sillyplus(1:10, 1:10)
 [1]  2  4  6  8 10 12 14 16 18 20

and is vectorised in the sense that it can operate on entire vectors at once, but it is not vectorised in the sense I describe above because it is exceptionally inefficient. + is vectorised at the C level in R so we really only need 1:10 + 1:10, not an explicit loop in R.

The usual way to write a vectorised function is to use existing R functions that are already vectorised. If you want to start from scratch and the thing you want to do with the function doesn't exist as a vectorised function in R (odd, but possible) then you will need to get your hands dirty and write the guts of the function in C and prepare a little wrapper in R to call the C function you wrote with the vector of data you want it to work on. There are ways with functions like Vectorize() to fake vectorisation for R functions that are not vectorised.

C is not the only option here, FORTRAN is a possibility as is C++ and, thanks to Dirk Eddelbuettel & Romain Francois, the latter is much easier to do now with the Rcpp package.

12

A vectorized function will return a vector of the same length as one of its arguments. Generally one can get such a function by using combinations of built-in functions like "+", cos or exp that are vectorized as well.

vecexpcos <- function(x) exp(cos(x))
vecexpcos( (1:10)*pi )
>    vecexpcos( (1:10)*pi )
# [1] 0.3678794 2.7182818 0.3678794 2.7182818 0.3678794 2.7182818 0.3678794 2.7182818 0.3678794 2.7182818

If you need to use a non-vectorized function like sum, you may need to invoke mapply or Vectorize in order to get the desired behavior.

4
  • The internal vectorized sum can be accessed with '+' (for example, outer(a, b, '+')). A slower Vectorized()` sum() function can be written: sumV <- Vectorize(function(x, y) sum(x, y))
    – M.Viking
    Dec 12, 2023 at 17:18
  • @M.Viking My point was that one can nest a group of already vectorized functions. I’m uncertain whether outer is vectorized. I suppose if it is I would need to revise my answer.
    – IRTFM
    Dec 12, 2023 at 18:57
  • Having re-read stackoverflow.com/q/28983292/10276092 and stackoverflow.com/q/2275896/10276092 I don't think anything in R is vectorized any more. :) :( I mostly wanted to document the way to write sumV
    – M.Viking
    Dec 12, 2023 at 19:35
  • Both of those questions involved one of the *apply functions and describes “loop hiding”. Generally loops withe the same core algorithms will pert the same as the apply functions these days. R vectorization uses optimized internal functions that would otherwise need loops.
    – IRTFM
    Dec 13, 2023 at 4:42
5

The purpose of the Vectorize function is to enhance the capability of a normal function to consider the concept of vectorization in R.

For instance, consider the function below for subtraction:

difftemp <- function(x){
    if(x > 10)
        return(x*10 - x)
    else
        return(x)
}

This is a simple function that will return a value that is less than 10 times the input if the value is greater than 10. If the input value is less than 10, then it will simply return the same value.

> difftemp(100)
# [1] 900

But when you will apply the same function over a vector, then it will fail.

> difftemp(mtcars$mpg)
# Error in if (x > 10) return(x * 10 - x) else return(x) : 
#  the condition has length > 1

This is because the function does not support vectorization. To make this function Vectorized, we need to use the Vectorize function in R. For example:

# Vectorize difftemp function
> difftemp_v <- Vectorize(difftemp)

> difftemp_v(mtcars$mpg)
# [1] 189.0 189.0 205.2 192.6 168.3 162.9 128.7 219.6 205.2 172.8 160.2 147.6 155.7 136.8  93.6  93.6 132.3 291.6 273.6 305.1 193.5 139.5
# [23] 136.8 119.7 172.8 245.7 234.0 273.6 142.2 177.3 135.0 192.6

Keep Coding!

2
  • very useful information - great example. Keep answering! Dec 10, 2022 at 23:17
  • @user12256545 thank you so much for the complement. Happy to help! :) Feb 2, 2023 at 3:05
2

Late to the party, but I think the question is still highly relevant and there some new methods gained popularity recently. So here's one more way to vectorize functions in R, using tidyverse methods.

First, define some data:

x <- c(1,2,3)
y <- c(1,2,4)

Now, assume, we'd like to perform some computation element-wise on these two vectors such that f(x,y).

For instance, computing the sum for each (pair of) element of x and y should yield: 2,4,7.

Let's use map2_dbl from purrr (a package from the tidyverse ecosystem):

x <- c(1,2,3)
y <- c(1,2,4)

library(tidyverse)
map2_dbl(.x = x,
         .y = y,
         .f = sum)
#> [1] 2 4 7

As can be seen, the result is vectorized in the sense that the sum was computed for each pair of elements from x and y.

In sum, using map() and its variants is a convenient way to vectorize functions, at least in some situations.

1
  • The map function is isomorphic to the mapply function, hence not vectorized.
    – IRTFM
    Dec 12, 2023 at 19:00

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