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Given a list lst and a number n the following bit of code outputs a list with n distinct elements from the given list lst.

rndsel :: (Eq a, RandomGen g) => [a] -> g -> Int -> [a]
rndsel lst _ 0 = []
rndsel lst g n = schar:(rndsel rem g (n-1))
  where schar = lst !! index
        index = head $ randomRs (0, ll-1) g
        ll = length lst
        rem = delete schar lst

I would like to know if there is any way I can improve this code in terms of readability, eloquence and if I can make it more idiomatic haskell code?

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closed as off topic by mydogisbox, soon, Ramon Snir, delnan, Tyler Crompton Jun 13 '13 at 15:38

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8 is a more appropriate place for this question. – mydogisbox Jun 13 '13 at 14:41

1 Answer 1

up vote 5 down vote accepted
  1. For better compositionality with other functions on list it's better to move the input list parameter to last position, i.e.:

    g -> Int -> [a] -> [a]

    This way you'll be able to use your function like this:

    nub . rndsel g n . sort $ someList
  2. It also feels more natural to change the order of "generator" with the "n" parameters, as the "n" seems to be the most dynamic one:

    Int -> g -> [a] -> [a]

  3. The !! function is partial and will present you with a runtime error if you provide it an index larger than the size of the list. Lately it's considered a bad practice to use partial functions.

  4. The head function is partial too.

  5. List is not an index-based structure and accessing it's elements by index (the !! function) has an O(n) complexity, which is very ineffective.

  6. The problem domain of your function is easily dividable into two other simpler ones: shuffling and taking a part of the shuffling result. There's a lot of good shuffling algorithms implementations out there, the Fisher Yates seems most appropriate in your case. It has the following signature:

    shuffle :: RandomGen g => g -> [a] -> ([a], g)

    Now using it we can easily reimplement your function as follows:

    rndsel :: (Eq a, RandomGen g) => Int -> g -> [a] -> [a]
    rndsel n g = take n . fst . shuffle g
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