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I have N vectors containing the cumulative frequencies of tweets, for clarification one of these vectors would like (0, 0, 1, 1, 2, 3, 4, 4, 5, 5, 6, 6, ...)

I wanted to visualize the differences in these frequencies by creating a heat map. For that I first wanted to create an NxN Matrix containing the euclidean distances between tweets. My first approach is rather Java like and looks like this:

create_dist <- function(x){
  n <- length(x)                             #number of tweets
  xy <- matrix(nrow=n, ncol=n)               #create NxN matrix
  colnames(xy) <- names(x)                   #set column
  rownames(xy) <- names(x)                   #and row names

  for(i in 1:n) {
    for(j in 1:n){
      xy[i,j] <- distance(x[[i]], x[[1]])    #calculate euclidean distance for now, but should be interchangeable 


I measured the time it takes to create this distance matrix, and for a small sample (around two thousand tweets) it already takes about 35 seconds.

> system.time(create_dist(cumFreqs))
user  system elapsed 
34.572   0.000  34.602 

Now I thought about how I could speed up the calculation a little bit and because my computer has 8 cores I thought maybe if I use parallelization it's going to be faster.

Like the R novice I am I changed the inner for loop to a foreach loop.


create_dist <- function(x){
  n <- length(x)                                #number of tweets
  xy <- matrix(nrow=n, ncol=n)                  #create NxN matrix
  colnames(xy) <- names(x)                      #set column
  rownames(xy) <- names(x)                      #and row names

  for(i in 1:n) {
    xy[i,] <- unlist(foreach(j=1:n) %dopar% {   #set each row of the matrix
      distance(x[[i]], x[[j]])


Again I wanted to measure the time it takes to create a distance matrix for a sample of two thousand tweets using system.time(), but I cancelled the execution after 10 minutes because obviously there isn't a speed up at all.

I googled for solutions, but unfortunately I haven't found any. Now I wanted to ask you if there is a better way to create this distance matrix, maybe an apply function, which I have no shame admit still confuse me.

share|improve this question
Why you don't use ?dist? Should be a lot of faster than your solution. –  sgibb Jun 16 '13 at 12:19
I believe you would get better performance, if you parallelized the outer loop and not the inner loop. To get a benefit, even though there is parallelization overhead, each iteration needs to be performance intensive. However, I believe you can get rid of all explicit R loops in your code (see comment by @sgibb). –  Roland Jun 16 '13 at 12:21
Or, you could write the distance calculation in C++, and incorporate it into R using the inline package. –  Paul Hiemstra Jun 16 '13 at 12:22
I thought about using dist too, but the distance function I use should be interchangeable later. –  Daniel Jun 16 '13 at 12:24
Maybe you want to have a look at the proxy package. It supports 48 different distance measurements. The calculation is based on matrices and mostly very fast. –  sgibb Jun 16 '13 at 13:07

2 Answers 2

up vote 2 down vote accepted

As mentioned you can use dist function. Here an example of how to use the result of dist to create a heatmap.

nn <- paste0('row',1:5)
x <- matrix(rnorm(25), nrow = 5,dimnames=list(nn))
distObj <- dist(x)
cols <- c("#D33F6A", "#D95260", "#DE6355", "#E27449", 
            "#E6833D", "#E89331", "#E9A229", "#EAB12A", "#E9C037", 
            "#E7CE4C", "#E4DC68", "#E2E6BD")
## mandatory coercion
distObj <- as.matrix(distObj)
## hetamap
image(distObj[order(nn), order(nn)], col = cols, 
      xaxt = "n", yaxt = "n")
## axes labels
axis(1, at = seq(0, 1, length.out = dim(distObj)[1]), labels = nn, 
     las = 2)
axis(2, at = seq(0, 1, length.out = dim(distObj)[1]), labels = nn, 
     las = 2)

enter image description here

share|improve this answer
So, using your cumFreqs list of vectors, you could do: x <- do.call(rbind, cumFreqs), followed by distObj <- dist(x). With 2000 vectors of length 100, this takes just a couple of seconds. –  jbaums Jun 16 '13 at 14:59
@jbaums right! I wouldn't do better. –  agstudy Jun 16 '13 at 17:13

Like 'agstudy' suggests, use the builtin 'dist' function.

For future reference, nested for loops in R are pretty slow. As R is a functional language, try and use vectorised operations with functions such as the apply family (apply, lapply, sapply, tapply). It takes some time to think about programming tasks in a functional way when you're used to a C-like paradigm.

A useful discussion on benchmarks between for loops and apply flavours is here: Is R's apply family more than syntactic sugar?

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