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As a followup to my earlier question on finding runs of the same character in a string, I would also like to find a functional algorithm to find all substrings of length greater than 2 that are ascending or descending sequences of letters or digits (e,g,: "defgh", "34567", "XYZ", "fedcba", "NMLK", 9876", etc.) in a character string ([Char]). The only sequences that I am considering are substrings of A..Z, a..z, 0..9, and their descending counterparts. The return value should be a list of (zero-based offset, length) pairs. I am translating the "zxcvbn" password strength algorithm from JavaScript (containing imperative code) to Scala. I would like to keep my code as purely functional as possible, for all the usual reasons given for writing in the functional programming style.

My code is written in Scala, but I can probably translate an algorithm in any of Clojure, F#, Haskell, or pseudocode.

Example: For the string qweABCD13987 would return [(3,4),(9,3)].

I have written a rather monsterous function that I will post when I again have access to my work computer, but I am certain that a more elegant solution exists.

Once again, thanks.

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3 Answers 3

up vote 0 down vote accepted

I guess a nice solution for this problem is really more complicated than it seems at first. I'm no Scala Pro, so my solution is surely not optimal and nice, but maybe it gives you some ideas.

The basic idea is to compute the difference between two consecutive characters, afterwards it unfortunately gets a bit messy. Ask me if some of the code is unclear!

object Sequences {

  val s = "qweABCD13987"                         

  val pairs = (s zip s.tail) toList   // if s might be empty, add a check here            
  // = List((q,w), (w,e), (e,A), (A,B), (B,C), (C,D), (D,1), (1,3), (3,9), (9,8), (8,7))

  // assuming all characters are either letters or digits
  val diff = pairs map {case (t1, t2) =>
    if (t1.isLetter ^ t2.isLetter) 0 else t1 - t2}   // xor could also be replaced by !=
  // = List(-6, 18, 36, -1, -1, -1, 19, -2, -6, 1, 1)

  /**
   *
   * @param xs A list indicating the differences between consecutive characters
   * @param current triple: (start index of the current sequence;
   *                         number of current elements in the sequence;
   *                         number indicating the direction i.e. -1 = downwards, 1 = upwards, 0 = doesn't matter)
   * @return A list of triples similar to the argument
   */
  def sequences(xs: Seq[Int], current: (Int, Int, Int) = (0, 1, 0)): List[(Int, Int, Int)] = xs match {
    case Nil => current :: Nil
    case (1 :: ys) =>
      if (current._3 != -1)
        sequences(ys, (current._1, current._2 + 1, 1))
      else
        current :: sequences(ys, (current._1 + current._2 - 1, 2, 1))  // "recompute" the current index
    case (-1 :: ys) =>
      if (current._3 != 1)
        sequences(ys, (current._1, current._2 + 1, -1))
      else
        current :: sequences(ys, (current._1 + current._2 - 1, 2, -1))
    case (_ :: ys) =>
      current :: sequences(ys, (current._1 + current._2, 1, 0))
  }                                               

  sequences(diff) filter (_._2 > 1) map (t => (t._1, t._2))
}
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The algorithm needs a small change to only allow sequences of letters and digits: in the diff method, return 0 if t._1 or t_.2 are not letters or digits. –  Ralph Dec 6 '12 at 16:08
    
That's true, thanks for the comment. I adjusted the method accordingly! –  SHildebrandt Dec 6 '12 at 22:09

It's always best to split a problem into several smaller subproblems. I wrote a solution in Haskell, which is easier for me. It uses lazy lists, but I suppose you can convert it to Scala either using streams or by making the main function tail recursive and passing the intermediate result as an argument.

-- Mark all subsequences whose adjacent elements satisfy
-- the given predicate. Includes subsequences of length 1.
sequences :: (Eq a) => (a -> a -> Bool) -> [a] -> [(Int,Int)]
sequences p [] = []
sequences p (x:xs) = seq x xs 0 0
  where
    -- arguments: previous char, current tail sequence, 
    -- last asc. start offset of a valid subsequence, current offset
    seq _ [] lastOffs curOffs = [(lastOffs, curOffs - lastOffs)]
    seq x (x':xs) lastOffs curOffs
        | p x x'    -- predicate matches - we're extending current subsequence
            = seq x' xs lastOffs curOffs'
        | otherwise -- output the currently marked subsequence and start a new one
            = (lastOffs, curOffs - lastOffs) : seq x' xs curOffs curOffs'
      where
        curOffs' = curOffs + 1

-- Marks ascending subsequences.
asc :: (Enum a, Eq a) => [a] -> [(Int,Int)]
asc = sequences (\x y -> succ x == y)

-- Marks descending subsequences.
desc :: (Enum a, Eq a) => [a] -> [(Int,Int)]
desc = sequences (\x y -> pred x == y)

-- Returns True for subsequences of length at least 2.
validRange :: (Int, Int) -> Bool
validRange (offs, len) = len >= 2

-- Find all both ascending and descending subsequences of the
-- proper length.
combined :: (Enum a, Eq a) => [a] -> [(Int,Int)]
combined xs = filter validRange (asc xs) ++ filter validRange (desc xs)

-- test:
main = print $ combined "qweABCD13987"
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The algorithm needs a small change to only allow sequences of letters and digits: in the asc and desc functions, return False if either of the arguments are not letters or digits. –  Ralph Dec 6 '12 at 16:10

Here is my approximation in Clojure:

We can transform the input string so we can apply your previous algorithm to find a solution. The alorithm wont be the most performant but I think you will have a more abstracted and readable code.

The example string can be transformed in the following way:

user => (find-serials "qweABCD13987")
(0 1 2 # # # # 7 8 # # #)

Reusing the previous function "find-runs":

user => (find-runs (find-serials "qweABCD13987"))
([3 4] [9 3])

The final code will look like this:

(defn find-runs [s]
  (let [ls (map count (partition-by identity s))]
    (filter #(>= (% 1) 3) 
            (map vector (reductions + 0 ls) ls))))

(def pad "#")

(defn inc-or-dec? [a b] 
  (= (Math/abs (- (int a) (int b))) 1 ))

(defn serial? [a b c] 
  (or (inc-or-dec? a b) (inc-or-dec? b c)))

(defn find-serials [s] 
  (map-indexed (fn [x [a b c]] (if (serial? a b c) pad x)) 
       (partition 3 1 (concat pad s pad))))

find-serials creates a 3 cell sliding window and applies serial? to detect the cells that are the beginning/middle/end of a sequence. The string is conveniently padded so the window is always centered over the original characters.

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