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I have this line of R code:

croppedDNA <- completeDNA[,apply(completeDNA,2,function(x) any(c(FALSE,x[-length(x)]!=x[-1])))]

What it does is identify the sites (cols) in a matrix of DNA sequences (1 row = one seq) that are not universal (informative) and subsets them from the matrix to make a new 'cropped matrix' i.e. get rid of all the columns in which values are the same. For a big dataset this takes about 6 seconds. I don't know if I can do it faster in C++ (still a beginner in C++) but it will be good for me to try. My idea is to use Rcpp, loop through the columns of the CharacterMatrix, pull out the column (the site) as a CharacterVector check if they are the same. If they are the same, record that column number/index, continue for all columns. Then at the end make a new CharacterMatrix that only includes those columns. It is important that I keep the rownames and column names as they are in th "R version" of the matrix i.e. if a column goes, so should the colname.

I've been writing for about two minutes, so far what I have is (not finished):

#include <Rcpp.h>
#include <vector>
using namespace Rcpp;
// [[Rcpp::export]]
CharacterMatrix reduce_sequences(CharacterMatrix completeDNA)
  std::vector<bool> informativeSites; 
  for(int i = 0; i < completeDNA.ncol(); i++)
    CharacterVector bpsite = completeDNA(,i);
    if(all(bpsite == bpsite[1])
CharacterMatrix cutDNA = completeDNA(,informativeSites);
return cutDNA;

Am I going the right way about this? Is there an easier way. My understanding is I need std::vector because it's easy to grow them (since I don't know in advance how many cols I am going to want to keep). With the indexing will I need to +1 to the informativeSites vector at the end (because R indexes from 1 and C++ from 0)?

Thanks, Ben W.

share|improve this question
Good start, but you can't use negative indices in C/C++ ... –  Dirk Eddelbuettel May 15 '13 at 2:26
@DirkEddelbuettel, Yes you can, provided whatever you're using it with starts at the middle of an array or overloads it to deal with negatives. For example, int arr[] = {1, 2, 3, 4, 5}; int *mid = &arr[2]; int x = mid[-1]; //x = 2 –  chris May 15 '13 at 2:26
can you confirm that class(completeDNA) is matrix and not data.frame. apply is slow and there might be simple improvements to do to your R code before jumping to c++. –  flodel May 15 '13 at 2:28
That is splitting hairs. Indices go from 0 to n-1, with the indexing starting (almost always) at what corresponds to the start of the "thing" you are indexing. –  Dirk Eddelbuettel May 15 '13 at 2:28
Yes completeDNA is of matrix class as confirmed by 'class(completeDNA)'. –  Ward9250 May 15 '13 at 2:35

1 Answer 1

up vote 11 down vote accepted

Sample data:

z <- matrix(sample(c("a", "t", "c", "g", "N", "-"), 3*398508, TRUE), 3, 398508)

OP's solution:

system.time(y1 <- z[,apply(z,2,function(x) any(c(FALSE,x[-length(x)]!=x[-1])))])
#    user  system elapsed 
#   4.929   0.043   4.976 

A faster version using base R:

system.time(y2 <- (z[, colSums(z[-1,] != z[-nrow(z), ]) > 0]))
#    user  system elapsed 
#   0.087   0.011   0.098 

The results are identical:

identical(y1, y2)
# [1] TRUE

It's very possible c++ will beat it, but is it really necessary?

share|improve this answer
That's wonderful, I suppose the summing is quick because of vectorization R is strong at doing. I'll accept this as the answer to go into the code I'll use in the pipeline. I'll have a go at the c++ but really for my own education. Thanks, flodel! –  Ward9250 May 15 '13 at 2:55
(+1) for thinking inside the box :-) –  Nishanth May 15 '13 at 3:27

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