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I have strings of numbers not necessarily of the same length e.g.




I have imported these into a dataframe in R e.g. the above three strings would give the following three rows (which I shall call df):

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I am looking to write some functions that will help me understand the data. As a starting point - given a numeric vector x - I would like a 'process' P of establishing the number of rows which contain x as a subvector e.g. if x = c(2,1) then P(x) = 2, if x = c(0,0,0) then P(x) = 1 and if x = c(1,3) then P(x) = 0. I have many more similar questions though I am hoping I will be able to take the logic from this question and work out some of the other stuff myself.

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What if you made this into a character vector(s) and used regular expressions? –  Roman Luštrik Dec 19 '12 at 11:27
@RomanLuštrik definitely the way to go :) –  Anthony Damico Dec 19 '12 at 12:05
@RomanLuštrik just a caution - converting floats to char may not do what is expected (rounding problems). So long as the OP is just working with integers, regexp looks like a great solution. –  Carl Witthoft Dec 19 '12 at 12:32
You can avoid the costly conversion and subsequent regexing by matching the numbers directly. outer() is very useful here. –  Joris Meys Dec 19 '12 at 12:56
but outer is such a memory hog... –  flodel Dec 19 '12 at 13:21

2 Answers 2

up vote 6 down vote accepted

Edit: The regex way would be:

match.regex <- function(x,data){
  xs <- paste(x,collapse="_")
  dats <- apply(data,1,paste,collapse="_")

> match.regex(c(1),dat)
[1] 3
> match.regex(c(0,0,0),dat)
[1] 1
> match.regex(c(1,2),dat)
[1] 2
> match.regex(5,dat)
[1] 0

Surprisingly, this one is faster than other methods given here, and about twice as fast as my solution below, both on small and on big datasets. Regexes got pretty much optimized apparently :

> benchmark(matching(c(1,2),dat),match.regex(c(1,2),dat),replications=1000)
                       test replications elapsed relative 
2 match.regex(c(1, 2), dat)         1000    0.15      1.0 
1    matching(c(1, 2), dat)         1000    0.36      2.4 

An approach that gives you the number immediately and works more vectorized, is the following:

matching.row <- function(x,row){
    nx <- length(x)
    sid <- which(x[1]==row)
    any(sapply(sid,function(i) all(row[seq(i,i+nx-1)]==x)))

matching <- function(x,data)
  sum(apply(data,1,function(i) matching.row(x,i)),na.rm=TRUE)

Here you first create a matrix with indices that move a window over a row of the same length as the vector you want to match. These windows are then checked against the vector. This approach is followed for every row, and the sum of the rows returning TRUE is what you want.

> matching(c(1),dat)
[1] 3
> matching(c(0,0,0),dat)
[1] 1
> matching(c(1,2),dat)
[1] 2
> matching(5,dat)
[1] 0
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Very nice. Be interesting to see a speed test between this and regexp. –  Carl Witthoft Dec 19 '12 at 13:37
As shown, regex is faster apparently –  Joris Meys Dec 19 '12 at 14:11
...and I suspect it will be even faster if you use fixed = TRUE. Also note that using == can still lead to floating error mismatches if the point was to allow for numeric comparisons. –  flodel Dec 19 '12 at 14:29
@flodel fixed=TRUE doesn't gain you speed in this case. And numeric comparisons don't seem to make much sense in this context. You can use all.equal() in that case, but you have to strip attributes then to avoid problems there. –  Joris Meys Dec 19 '12 at 14:34
I actually expected this speed win, on the theory that regexp just matches byte patterns (my guess at how it works) while any numeric function has to do "stuff" with numbers and library lookups (again my guess at how it works). –  Carl Witthoft Dec 19 '12 at 15:12

You need to apply a function to the rows of your data:

apply(dat, MARGIN = 1, FUN = is.sub.array, x = c(2,1))

where dat is your data.frame and is.sub.array is a function that checks if x contained in a larger vector (in practice, the rows of your data.frame).

I am not aware of any available such is.sub.array function so here is how I would write it:

is.sub.array <- function(x, y) {
    j <- rep(TRUE, length(y))
    for (i in seq_along(x)) {
        if (i > 1) j <- c(FALSE, head(j, -1))
        j <- j & vapply(y, FUN = function(a,b) isTRUE(all.equal(a, b)),
                        FUN.VALUE = logical(1), b = x[i])
    return(sum(j, na.rm = TRUE) > 0L)

(The advantage with using all.equal is that it can be used to compare numeric vectors, something that regular expressions won't be able to do.)

Here are a few examples:

apply(dat, 1, is.sub.array, x = c(1, 2))
apply(dat, 1, is.sub.array, x = c(0, 0, 0))
apply(dat, 1, is.sub.array, x = as.numeric(c(NA, NA)))

Note: all.equal is sensitive to your data type, so be careful to use an x with the same type as your data (integer or numeric).

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