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For those with suspicious minds, this is not homework, just curious.

Given a finite alphabet, is it possible to construct a list of infinitely long words made from the alphabet in reverse lexographic order?

i.e. given the alphabet "ab"

is it possible to construct the list:

["aaaaaa...", "baaaaa...", "abaaaa...", "bbaaaa...", "aabaaa...", ...]

where ... represents the list (and list of lists) extending to infinite length.

A naïve attempt is:

counters alphabet = [c:ounter | ounter <- counters alphabet, c <- alphabet]

but this doesn't work since it is left recursive.

Of course, with a working version, if you tried to print the result, you would only see the first element being printed as an infinite list of the first element from the alphabet. However, you should be able to do this:

mapM_ (print . take 2) . take 4 . counters $ "ab"

and see the output:

share|improve this question
you are aware there are uncountably many words, so the list won't include all of them? – sdcvvc Jan 6 '12 at 19:39
Yes, but you wrote in the question "all infinitely long words"; it's not all, only those which are composed of "a" from some point. – sdcvvc Jan 6 '12 at 19:44
If you're happy with only the strings that trail off into aaa..., then why not just generate all finite words and tack on aaa...? – redxaxder Jan 6 '12 at 21:03
@redxaxder I tried it. There are an annoying number of special cases, because all the finite words in the sequence "", "a", "aa", "aaa", ... produce the same infinite word. I didn't find a solution that was reasonably elegant (few special cases) and reasonably efficient (e.g. no use of nub) at the same time. – Daniel Wagner Jan 6 '12 at 22:30
@redxaxder, sorry for being so slow. I was confusing finite length with fixed length. Yes, I see what you're saying now. Thanks. – pat Jan 7 '12 at 3:49

6 Answers 6

up vote 11 down vote accepted

Why not fix it?

ghci> let bar = let foo ~(st:sts) = [c:st | c <- "ab"] ++ foo sts in fix foo
ghci> take 5 . map (take 5) $ bar
take 10 . map (take 5) $ bar
share|improve this answer
Sweet! I was coming to the realization that a lazy pattern was required since it was not otherwise decidable whether the result was non-empty. – pat Jan 6 '12 at 20:31

Probably not the most efficient solution, but at least it works:

counters alphabet = map f [0..]
  where f n = let (q, r) = quotRem n (length alphabet) in alphabet !! r : f q
> take 10 $ map (take 5) $ counters "ab"
share|improve this answer

You may find the following approach amusing/confusing:

duplicates s ss = cycle ss : duplicates s (ss >>= \c -> s >> [c])
counters = transpose . join duplicates

This comes from the observation that the first letters follow the pattern "ababab...", the second letters follow the pattern "aabbaabbaabb...", the third letters follow the pattern "aaaabbbbaaaabbbb...", etc.

share|improve this answer
Very nice. +1 for sure. – Daniel Fischer Jan 6 '12 at 23:15

What about this?

f@(a:as) = a:('b':a):concatMap (\x -> ['a':x,'b':x]) as where a = ['a','a'..]

Also (\x -> ['a':x,'b':x]) can be written in Applicative as ([('a':),('b':)] <*>) . pure if you consider it to be more elegant.

share|improve this answer

The progression looks like encoding a base-N number with the least-significant-digit on the left, so we could approach it as

  1. Make a "to base N" function f using your alphabets as the letters.
  2. map f to [0..]
  3. Append repeat $ head alphabets to each element of the list.
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Yet another version based on Daniel's idea:

counters = transpose $ map cycle $ iterate (>>= \x -> [x,x]) "ab"
share|improve this answer
Love the simplicity! Great way to generate words from any alphabet! For anyone that wonders, (>>= \x -> [x,x]) equals concat . map (\x -> [x,x]) for lists. Hence the complexity is optimal as well. – Thomas Ahle Feb 27 '12 at 17:36

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