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I have a column of string names, and I would like to find often occuring patterns (words). Is there a way to return, say, strings with a higher (or equal) length than X, and occur more often than Y times in the the whole column?

column <- c("bla1okay", "okay1243bla", "blaokay", "bla12okay", "okaybla")
getOftenOccuringPatterns <- function(.....) 
getOftenOccuringPatterns(column, atleaststringsize=3, atleasttimes=4)
>     what   times 
[1]   bla    5
[2]   okay   5

Referring to the comment by Tim:

I would like the nested ones to be removed, so if there is "aaaaaaa" and "aaaa" and both would occur in the output, only "aaaaaaa" and the times that one occurs counts.

If atleaststringsize=3 and atleaststringsize=4, both the output will be the same. Lets say atleasttimes=10, and "aaaaaaaa" occurs 15 times and "aaaaaa" occurs 15 times, then:

getOftenOccurringPatterns(column, atleaststringsize=3, atleasttimes=10)
>    what      times
[1]  aaaaaaaa    15


getOftenOccurringPatterns(column, atleaststringsize=4, atleasttimes=10) 
>    what      times
[1]  aaaaaaaa    15

The longest one stays, and it's the same thing for both atleast=3, and atleast=4.

share|improve this question
Sounds like a fun problem. But regex is not going to be the way to solve it. –  Tim Pietzcker May 26 '13 at 8:09
How should overlapping matches be handled? E. g., what's the desired result for "abcdef", "abcd", "bcde", "cdef"? –  Tim Pietzcker May 26 '13 at 8:12
@TimPietzcker Only the longest should be kept. –  PascalvKooten May 26 '13 at 8:16
Which is in this case? Also, imagine another string in your column: "blaoka". What's the result now? –  Tim Pietzcker May 26 '13 at 8:17
bla and okay do not overlap right? I'd say okayyy should remove okay, and blaaa should remove bla. "blaoka" should just give "blaoka", if it is in the column often. –  PascalvKooten May 26 '13 at 8:18

3 Answers 3

up vote 1 down vote accepted

OK, I've written a solution in Python. Sorry, I can't give you a working R program, but you should be able to implement one from this. As you can see, this is quite a brute force solution, but I don't really see a way around building all possible substrings from all the strings in your input.

I've broken down the problem into simple, self-contained steps. These should be straightforward to translate into R. I'm sure that there are comparable data structures in R for lists, sets and counters.

from collections import Counter
strings = ["bla1okay", "okay1243bla", "blaokay", "bla12okay", "okaybla"]

def substrings(s, minlength=3):
    """Finds all possible unique substrings of s, given a minimum length.

    >>> substrings("12345")
    {'1234', '234', '345', '12345', '123', '2345'}
    >>> substrings("123123")
    {'2312', '123123', '12312', '123', '23123', '1231', '231', '3123', '312'}
    >>> substrings("aaaaa")
    {'aaaaa', 'aaaa', 'aaa'}
    maxsize = current = len(s)
    result = []
    while current >= minlength:
                       for start in range(maxsize-current+1)])
                                  # range(5) is [0,1,2,3,4]
        current -= 1
    return set(result) # set() removes duplicates

def all_substrings(strings, minlength=3):
    """Returns the union of all the sets of substrings of a list of strings.

    >>> all_substrings(["abcd", "1234"])
    {'123', 'abc', 'abcd', '1234', 'bcd', '234'}
    >>> all_substrings(["abcd", "bcde"])
    {'abc', 'bcd', 'cde', 'abcd', 'bcde'}
    result = set()
    for s in strings:
        result |= substrings(s, minlength)
        # "|=" is the set union operator
    return result

def count(strings, minlength=3):
    """Counts the occurrence of each substring within the provided list of strings,
    given a minimum length for each substring.

    >>> count(["abcd", "bcde"])
    Counter({'bcd': 2, 'bcde': 1, 'abc': 1, 'abcd': 1, 'cde': 1})
    substrings = all_substrings(strings, minlength)
    counts = Counter()
    for substring in substrings:       # Check each substring
         for string in strings:        # against each of the original strings
             if substring in string:   # to see whether it is contained there
                 counts[substring] += 1
    return counts

def prune(counts, mincount=4):
    """Returns only the longest substrings whose count is >= mincount.
    First, all the substrings with a count < mincount are eliminated.
    Then, only those that aren't substrings of a longer string are kept.
    >>> prune(Counter({'bla': 5, 'kay': 5, 'oka': 5, 'okay': 5, 'la1': 2, 'bla1': 2}))
    [('okay', 5), ('bla', 5)]
    # Throw out all counts < mincount. Sort result by length of the substrings.
    candidates = sorted(((s,c) for s,c in counts.items() if c >= mincount), 
                        key=lambda l: len(l[0]), reverse=True) # descending sort
    result = []
    seenstrings = set()      # Set of strings already in our result
    # (we could also look directly in the result, but set lookup is faster)
    for item in candidates:
        s = item[0]          # item[0] contains the substring
        # Make sure that s is not already in our result list
        if not any(s in seen for seen in seenstrings): 
    return result

counts = count(strings)


[('okay', 5), ('bla', 5)]
share|improve this answer
It's okay actually, I use Python as well. I got it working, and while this is probably the same relative speed in R, Python is simply quicker, and fine for my goal for now. I'll change the question as to allow this question to be the answer, since you found a solution. –  PascalvKooten May 26 '13 at 16:17

Its in no way tested and wont win any speed races:

getOftenOccuringPatterns <- function(column, atleaststringsize, atleasttimes, uniqueInColumns = FALSE){

  res <- 
        unique(substring(x, 1:(nchar(x)-y+1), y:nchar(x)))
        substring(x, 1:(nchar(x)-y+1), y:nchar(x))

  orderedRes <- unlist(res)[order(unlist(res))]
  encodedRes <- rle(orderedRes)

  partRes <- with(encodedRes, {check = (lengths >= atleasttimes);
                               list(what = values[check], times = lengths[check])})
  testRes <- sapply(partRes$what, function(x){length(grep(x, partRes$what)) > 1})

  lapply(partRes, '[', !testRes)


column <- c("bla1okay", "okay1243bla", "blaokay", "bla12okay", "okaybla")
getOftenOccuringPatterns(column, atleaststringsize=3, atleasttimes=4)

 "bla" "okay" 


5 5 

getOftenOccuringPatterns(c("aaaaaaaa", "aaaaaaa", "aaaaaa", "aaaaa", "aaaa", "aaa"), atleaststringsize=3, atleasttimes=4)
[1] "aaaaaa"

[1] 6

getOftenOccuringPatterns(c("aaaaaaaa", "aaaaaaa", "aaaaaa", "aaaaa", "aaaa", "aaa"), atleaststringsize=3, atleasttimes=4, uniqueInColumn = TRUE)
[1] "aaaaa"

[1] 4
share|improve this answer
Cool! Looks impressive, even though I don't understand it. I should start reading some R books. Very concise, but still readable syntax. Nice. –  Tim Pietzcker May 26 '13 at 14:00
Thanks @TimPietzcker I just copied your ideas ;) –  user1609452 May 26 '13 at 14:04
It's really slow. For some reason it did work on a list of 1000 strings (took a minute or so), I have to run it on 16000. Biggest problem is that it errors; Error in grep(x, partRes$what) (from #19) : invalid regular expression ' *** ', reason 'Invalid use of repetition operators' –  PascalvKooten May 26 '13 at 15:43
Without your data set it is hard to comment. There is no error correcting. Are there strings in your column with number of characters less then atleaststringsize. –  user1609452 May 26 '13 at 15:46
It is likely to be slow. What you are asking to do is not going to be fast for a large number of columns. –  user1609452 May 26 '13 at 15:47

This creates a vector of all occurrences of all substrings; it does so naively, iterating over the maximum length of the input string max(nchar(x)) and looking for all subsequences of length 1, 2, ... max(nchar(x)), so scales in polynomial time -- it won't be efficient for super-large problems.

This revision incorporates the following changes:

  1. .accumulate in inner and outer loops of the previous version implemented the dreaded "copy-and-append" pattern; now we accumulate results in a pre-allocated list answer0 and then accumulate these after the inner loop.

  2. allSubstrings() has arguments min_occur, min_nchar (and max_nchar) to restrict the search space. In particular, min_occur (the minimum number of times a substring must occur to be retained) helps to reduce the length of the character vector in which longer substrings are searched.

  3. The function .filter() can be used to more aggressively remove strings that do not contain substrings of length i; this can be costly, so there's a heuristic and argument useFilter that can be set. The use of a filter makes the whole solution seem more like a hack than an algorithm -- the information about substrings has already been extracted, so we shouldn't have to go back and search for their occurrence again.

Here is the revised main function

allSubstrings <-
    function(x, min_occur=1L, min_nchar=1L, max_nchar=max(nchar(x)),
             ..., useFilter=max(nchar(x)) > 100L)
    len <- nchar(x)
    x <- x[len >= min_nchar]; len <- len[len >= min_nchar]
    answer <- vector("list", max_nchar - min_nchar + 1L)
    for (i in seq(min_nchar, max_nchar)) {
        ## suffix of length i, starting at character j
        x0 <- x; len0 <- len; n <- max(len0) - i + 1L
        answer0 <- vector("list", n)
        for (j in seq_len(n)) {
            end <- j + i - 1L
            f <- factor(substr(x0, j, end))
            answer0[[j]] <- setNames(tabulate(f), levels(f))
            x0 <- x0[len0 != end]; len0 <- len0[len0 != end]
        answer0 <- unlist(answer0)        # accumulate across start positions
        answer0 <- vapply(split(answer0, names(answer0)), sum, integer(1))
        answer0 <- answer0[answer0 >= min_occur]
        if (length(answer0) == 0L)
        answer[[i - min_nchar + 1L]] <- answer0

        idx <- len != i                   # no need to process some strings
        if (useFilter)
            idx[idx] <- .filter(x[idx], names(answer0))
        x <- x[idx]; len <- len[idx]
        if (length(x) == 0L)

and the .filter function

.filter <-
    function(s, q)
    ## which 's' contain at least one 'q'
    answer <- rep(FALSE, length(s))
    idx <- !answer      # use this to minimize the number of greps
    for (elt in q) {
        answer[idx] <- answer[idx] | grepl(elt, s[idx], fixed=TRUE)
        idx[idx] <- !answer[idx]

As before result is a named vector, where the names are the strings and the values are the counts of their occurrence.

> column <- c("bla1okay", "okay1243bla", "blaokay", "bla12okay", "okaybla")
> xx <- allSubstrings(column)
> head(sort(xx, decreasing=TRUE))
 a  b  o  k  l  y 
10  5  5  5  5  5 
> xtabs(~nchar(names(xx)) + xx)
nchar(names(xx))  1  2  3  5 10
              1   2  1  1  5  1
              2   8  2  0  5  0
              3  15  1  0  3  0
              4  20  1  0  1  0
              5  22  0  0  0  0

Queries like in the original question are then easy to perform, e.g., all substrings of >= 3 characters occurring more than 4 times:

> (ok <- xx[nchar(names(xx)) >= 3 & xx > 4])
 bla  oka  kay okay 
   5    5    5    5 

The code doesn't fully answer the question, e.g., nested substrings are present, but might replace the nested lapply portion of @user1609452's answer. Post-processing this result to eliminate nested subsequences is a little inelegant, but since the result being post-processed is not large will likely be fast enough, e.g., to eliminate nested substrings

> fun <- function(p, q) length(grep(p, q, fixed=TRUE))
> ok[ sapply(names(ok), fun, names(ok)) == 1L ]   
 bla okay 
   5    5 

Here we use the 99k word dictionary on my laptop for input, with some basic timings for the revised algorithm

> timer <- function(n, x, ...)
    system.time(allSubstrings(head(x, n), ...))[[3]]
> n <- c(100, 1000, 10000, 20000)
> data.frame(n=n, elapsed=sapply(n, timer, words))
      n elapsed
1   100   0.050
2  1000   0.074
3 10000   0.490
4 20000   1.031

This is about 10x faster than the original algorithm, due in this case entirely to revision 1 (using pre-allocate and fill, followed by accumulation).

Here's a corpus of longer sentences

shakes <- readLines("http://www.gutenberg.org/cache/epub/100/pg100.txt")
shakes <- paste(shakes[nchar(shakes) != 0], collapse=" ")
shakes <- gsub(" +", " ", shakes)
shakes <- strsplit(shakes, "\\. +",)[[1]]

and some timings. This benefits alot from specifying a min_occur argument, and from use of the filter.

> n <- c(100, 1000, 2000, 5000)
> data.frame(n=n, elapsed=sapply(n, timer, shakes, min_occur=10))
     n elapsed
1  100   1.725
2 1000   7.724
3 2000  12.415
4 5000  60.914

The need to use a filter and the poor performance on longer strings leads one to want to arrive at a better algorithm, like suffix array; the "Rlibstree" package might also be useful, although I'm unsure of where to get a current version or whether the exposed part of the interface is sufficient to answer the original question.

share|improve this answer
I do not really understand what the numbers are that you are outputting, nor how to use the .accumulate? Maybe could you explain that part? –  PascalvKooten May 26 '13 at 17:24
@Dualinity .accumulate is used internally; I included it for completeness. I have added an example of how the data returned by allSubstrings() can be queried for what you're interested in, i.e., all substrings with three or more characters occurring more than 4 times. Hopefully it's a good strategy to arrive at a data structure (the named vector) that you can then use with more-or-less straight-forward R commands to get your specific results quickly and easily. –  Martin Morgan May 26 '13 at 17:37
This is great. I always appreciate the time and effort @MartinMorgan puts in to his answers. –  user1609452 May 26 '13 at 17:50
I only get numbers instead of the names of the columns (while running the latest code) –  PascalvKooten May 26 '13 at 19:03
I needed as.character() –  PascalvKooten May 26 '13 at 19:07

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