Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I'm new to the R language, and I really love this language for its powerful simplicity and rich packages.

To practice I rewrote a simple KNN prediction algorithm program in R. This program was originally written in Python. But after I wrote the R version, I found it SIGNIFICANTLY slower than the Python version, about 10 times time consuming.

I understand R is slow because it's a interpreted language, but sill I doubt maybe I wasn't using the language properly. I was obeying some basic rules of R that I have learned so far:

  1. Use built-in functions as much as possible, instead of making your own.
  2. Use sapply (or other members of the apply family) wherever possible, instead of using explicit loops.

Here's my runnable code, and functions defined should be pretty self explaining.

Can any one give me some hints on how to optimize ?


I rewrote my code according to everybody's suggestion, including:

  1. Use a three column data frame instead of the list structure.
  2. I tried to vectorize as much as possible, but I don't know if I was doing right.
  3. I profiled my code using Rprof.

To make this post cleaner, I put my code to

But honestly there's no obvious improvement, and the code still takes about the same time to run.

And here's the first lines of output of summaryRprof:

                        self.time self.pct total.time total.pct
"apply"                      5.18    28.68      18.06    100.00
"FUN"                        5.08    28.13      18.06    100.00
"-"                          1.22     6.76       1.22      6.76
"sum"                        1.08     5.98       1.08      5.98
"^"                          0.70     3.88       0.70      3.88
"lapply"                     0.58     3.21      18.06    100.00
"[.data.frame"               0.48     2.66       1.06      5.87
"sqrt"                       0.42     2.33       0.42      2.33
"data.frame"                 0.26     1.44       1.60      8.86
"unlist"                     0.24     1.33       0.90      4.98
"!"                          0.22     1.22       0.22      1.22
"is.null"                    0.22     1.22       0.22      1.22
"pmatch"                     0.18     1.00       0.18      1.00
"match"                      0.14     0.78       0.46      2.55

From the output I can see that apply and its FUN are taking most of the time, and I think this makes sense since most of the work is done with in apply.

So what's the next thing I should improve in my code ?

Thanks in advance.


Thanks everyone's suggestion, I've learned a lot on R and has tuned my code into a MUCH faster version:

This version takes about a little more than 0.5s, which is about 50 times or more faster than my original one, and it's even faster than the Python version. So I think I should take back my words about R being a slow language and learn more about it :)

Thanks everyone for your valuable suggestion !

share|improve this question
What is the bottleneck? You did profile this, didn't you? ?Rprof()! Oh, and you probably don't want to be using your euclidean() for the distances. Code in dist() is far far quicker. –  Gavin Simpson Oct 11 '11 at 14:20
I am not going to be tempted to optimize your code for you, but here is the most important thing you need to understand: Only use apply or loops AFTER you have vectorised your code. I read no further than your function createSet where you use sapply instead of using a vectorised call to data.frame. I suspect all of your other sapply statements can be similarly vectorised. –  Andrie Oct 11 '11 at 14:24
Also also: write some test code first. set.seed(to something), run your slow code, save the answer, speed it up, make sure it gives you the EXACT same answer. If not then you've probably broken it. –  Spacedman Oct 11 '11 at 14:26
@Spacedman: that may fail if you've (rightfully) managed to reduce the number of random numbers generated, or even changed the order which they occurred. Still a good principle, though. –  Nick Sabbe Oct 11 '11 at 14:34
@NickSabbe Yeah, but its hard to get the whole methodology of test-driven developlment into a 600 character SO comment :) And yes, I've had a case where the number of random numbers changed and broke my tests! –  Spacedman Oct 11 '11 at 14:36

3 Answers 3

up vote 8 down vote accepted

A couple of things:

  • You use [ a lot and get a list out which you then unlist. Use [[ instead to get the actual value out. This will be much faster.

  • Try to formulate the problem as a matrix (or vector) that you can operate on in one go. The dist function does that, but for knn it might use too much memory if the problem is large.

  • If you still need to use sapply, try vapply instead. It has much less overhead since you specify the result type so it doesn't have to guess.

  • You might want to look at some other postings regarding knn, like Computing sparse pairwise distance matrix in R. I suggested a way to calculate knn there that might be useful to you.

That said, if I understand your code correctly, rewriting knnEstimate a bit provides a healthy speedup (16x):

# Using your original knnEstimate
system.time( a1 <- crossValidate(knnEstimate, data) ) # 12.68 secs

# Using a vectorized version
knnEstimate <- function(data, v1, k=3) {
    v <- unlist(v1)
    # Get the matrix
    m <-, data[,'input'])
    idx <- order(sqrt(colSums((t(m)-v)^2)))[seq_len(k)]
    mean(unlist(data[idx, 'result']))

system.time( a2 <- crossValidate(knnEstimate, data) ) # 0.75 secs

The sqrt(colSums((t(m)-v)^2)) is what calculates the euclidean distance between the point v and all points in m in one go. Each row in m is a point, but it would be better to have each column being a point (no need to transpose then).

You can improve it further by keeping the matrix data in a matrix and not as elements in a list. Same goes for the result vector... And calculate t(m) outside knnEstimate to avoid doing it repeatedly.

[UPDATE] Regarding your question about other distance metrics, here's a variant that calls a (more efficient) equclidean function. It also uses vapply:

euclidean <- function(v1, v2) sqrt(sum((v1 - v2) ^ 2))
knnEstimate <- function(data, v1, k=3) {
    v <- unlist(v1)
    # Get the matrix
    m <-, data[,'input'])
    idx <- order(vapply(seq_len(nrow(m)), function(i) euclidean(m[i,], v),
    mean(unlist(data[idx, 'result']))

system.time( a3 <- crossValidate(knnEstimate, data) ) # 5.22 secs

...but you should still consider handling the euclidean case separately since it performs so much better vectorized.

share|improve this answer
Thanks Tommy! It works pretty well, but I wonder if this is scalable if I decide to use other distance metric other than euclidean distance? Since the computation of euclidean distance is much more straightforward than other metrics. –  Spirit Zhang Oct 12 '11 at 3:36
@SpiritZhang - see updated answer. –  Tommy Oct 12 '11 at 3:57

Profiling showed me most of the time was spent in unlist() in euclidean().

> system.time({set.seed(310366) ; x1 = crossValidate(knnEstimate, data)})
   user  system elapsed 
 16.261   0.020  16.383 

If I simply redefine euclidean to just get the 1st element:

> euclidean = function(v1,v2){return(sqrt(sum((v1[[1]]-v2[[1]])^2)))}
> system.time({set.seed(310366) ; x2 = crossValidate(knnEstimate, data)})
   user  system elapsed 
  9.257   0.016   9.309 

and check:

> x1 == x2
[1] TRUE

Faster for nearly zero effort. Reminds me of the time I sped up a student's code. She was using t(Z) in about a hundred places. So at the start I just did tZ=t(Z) and a bunch of search/replaces in emacs. Zoooom.

Now I'm not sure if you need the full power of 'unlist' here which can unroll nested lists - you probably just need the first component, but I've not checked. You probably saw someone use unlist and have copied them. Cargo cult programming. Understand what it does before using it. And make sure I've assumed right.

share|improve this answer
You can't say language A is inherently slower/faster than language B. Its a meaningless question with no definite answer. –  Spacedman Oct 11 '11 at 15:58
@DavidHeffernan: no, it's inherent with all poorly written code. –  Joshua Ulrich Oct 11 '11 at 16:04
I suspect the python code I wrote as a beginner was slower than R implementations of the same thing. Hence I may have thought Python was inherently slower than R. But I didn't. I just figured I didn't know everything. –  Spacedman Oct 11 '11 at 16:04
@DavidHeffernan I think it would be fair to say that code that is poorly written in R will be inherently slower than code that is well written in Python. And probably vice versa. –  Andrie Oct 11 '11 at 16:04
Not to quibble much, but speed is a function of algorithm + implementation + parser + compiler + OS + infrastructure + context (e.g. cacheing) + some stuff I may have forgotten. See improvements made in C++, Java, and other languages to see that the same code may be sped up based on other factors - the language didn't change. R has fewer combined years of effort put into its interpreter than other languages, but it's pretty damn fast for some operations, tolerable for others, and approximately linearly slower for others. The language stack doesn't often affect big-O complexity. :) –  Iterator Oct 11 '11 at 20:35

@Andrie's comment is spot-on. You need to use vectorized code where you can.

All the calls to sapply, except the one in crossValidate can be re-written with vectorized code. To do that, you need to change the format of your input data. Instead of it being a list with each element being an input/result pair, make it a 3-column matrix. If you must use lists, make it a two-element list: 1) the input matrix, and 2) the result matrix.

My gut feeling is that this code should easily run in under half a second on a modern machine.

share|improve this answer
Thanks for the advice and I modified my code accordingly, but it's still pretty slow. Please see my update. –  Spirit Zhang Oct 12 '11 at 3:04
@SpiritZhang: apply is not vectorized. It is still a looping operation. You should also avoid data.frames, if possible. Replace the first line of getDistances with distances <- sqrt(sum(sweep(data[,1:2],2,v1,FUN="-")^2)) and data.frame with cbind in the next line and you're down to ~1s. Do something similar in testAlgorithm and you should be a lot faster than you started. –  Joshua Ulrich Oct 12 '11 at 3:36
The distancs variable is supposed to be a vector not a number, and the distances <- sqrt(sum(sweep(data[,1:2],2,v1,FUN="-")^2)) will return a number. Do you mean colSums instead of sum ? –  Spirit Zhang Oct 12 '11 at 10:29

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.