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I have a list with hundreds of columns and rows. What I'm doing is looping through nearly every possible iteration of taking the difference between two columns. For example take the difference between 1st and 2nd column, 1st and 3rd column..1st and 500th column... 499th column and 500th column. Once I have those differences I compute some descriptive statistics (ie. mean, st dev, kurtosis, skewness, etc) for output. I know I can use lapply to calculate those statistics for each column individually but sd(x)-sd(y) <> sd(x-y) so it doesn't really cut down much on my looping. I can use avg(x)-avg(y)=avg(x-y) but that's the only statistic where I can use this property.

Here's some pseudo code that I have:

    for (n1 in 1:(number of columns) {
        for (n2 in n1:(number of columns) {
                 results[abc]<-(maxdrawdown,mean,skewness,kurtosis,count,st dev,
                       median, downsidedeviation)

Doing it this way can take literally days so I'm looking for some improvements. I'm already using Compiler with enableJIT(3) which actually does make it noticeably faster. I had a couple other ideas and any incites would be helpful. One is trying to utilize the snowfall package (still trying to get my head around how to implement it) with the thought that one core could compute skew and kurtosis while the other computes the other statistics. The other idea is creating big chunks of temp (ie. 1-2, 1-3, 1-4) as another data.frame (or list) so as to use lapply against it to knock out many iterations at once. Would this make much of a difference? Is there anything else I can do that I'm not even thinking of?

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The *apply functions should be (much) faster, although I've got no figures to hand, and they're easy to use –  ChrisW Dec 12 '12 at 19:27
@ChrisW: I think you will find that *apply are no faster than loops. They are certainly more compact and expressive, but benchmarking they will generally have the same performance. It's the interior functions that generally are the bottleneck. –  BondedDust Dec 12 '12 at 19:48
You need to provide a reproducible example, especially because the words you use to describe your problem are very confusing. Lists don't have rows/columns, they just have elements. My guess is that bigdata is a data.frame, in which case converting bigdata to a matrix will be appreciably faster. –  Joshua Ulrich Dec 12 '12 at 19:52
@DWin, hmm, you might be correct, although the answers… seem to suggest otherwise. I guess it's dependent on so many factors tho –  ChrisW Dec 12 '12 at 19:55
@ChrisW: The biggest problem with that first example is that apply converts X to a matrix, so they're really comparing matrix subsetting (which is fast) to data.frame subsetting (which is slow)... but attributing the speed difference to the loop. –  Joshua Ulrich Dec 12 '12 at 22:53

2 Answers 2

up vote 1 down vote accepted

A reproducible example would really help, because the way you describe your problem are confusing (e.g. lists don't have rows/columns). My guess is that bigdata and results are data.frames, in which case converting each of them to a matrix will make your loops appreciably faster.

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your assumption about bigdata and results were correct and converting them to a matrix made them roughly 6 times faster. –  Dean MacGregor Dec 14 '12 at 15:01

I don't know if it will be any faster, but the following might make the code a bit easier to read if not faster, although it should get a bit faster as well because you've eliminated the for() ....

Try using expand.grid(), which I tend to use less often than I probably should

For instance:

nC <- 3 # Num of cols
nR <- 4 # Num of cols
indices <- expand.grid(nC, nC)
# Now you can use apply cleanly
apply(indices, 1,
   function(x) {
      c1 <- x[1]; c2 <- x[2]
      yourResult[c1,c2] <- doYourThing(bigData[,c1], bigData[,c2])

Well, you get the idea. :-)

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