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A card has a type and a color:

data CardType = Spades | Clubs | Diamonds | Hearts

data CardColor = Black | Red

cardColor :: CardType -> CardColor

cardColor card =
  case card of Spades -> Black
               Clubs -> Black
               Diamonds -> Red
               Hearts -> Red

type Card = (CardType, CardColor)

I want to check whether all the cards have the same color:

allTheSameColor :: [Card] -> Bool

allTheSameColor cardList = ???

I wonder, how would I do that without using any library function such as filter? But it's allowed to re-implement it yourself since I want to be able to understand at a deep, functional level how to solve this problem.

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You can see how filter and friends are implemented on Hackage; e.g. here is filter. – Daniel Wagner Oct 27 '13 at 17:35

2 Answers 2

up vote 4 down vote accepted

CardColor should derive from Eq to be comparable:

data CardColor = Black | Red
                         deriving (Eq)

allTheSameColor :: [Card] -> Bool
allTheSameColor [] = True
allTheSameColor [x] = True
allTheSameColor (x:y:xs) = if (snd x) == (snd y) then allTheSameColor (y:xs)
                           else False          

To be more precise, how would you say that the numbers in a list are same? Don't think what steps or procedure you need to figure that, think in terms of relationships between the elements of the list that you need to figure out to find whether the elements of the list are same. That relationship turns out to be this: First element == second element AND second element == third element and so on till the length of the list.

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This is similar to how you would prove inductively that "each item in a series is twice as large as the previous item" etc. – Ramon Snir Oct 27 '13 at 12:27
That relationship turns out to be this: First element == second element AND second element == third element and so on till the length or if the first element is equal to each element. – アレックス Oct 27 '13 at 13:41

A function I always have in my module of extra list functions is allSameBy. Like this

allSameBy :: (a -> a -> Bool) -> [a] -> Bool
allSameBy _ [] = True
allSameBy eq (x:xs) = all (eq x) xs

Your problem can then easily be solved by

allTheSameColor = allSameBy ((==) `on` snd)

Alternatively (less efficient), you can define allSameBy as

allSameBy eq xs = length (groupBy eq xs) <= 1

Edit: Or if you don't want to use any library functions (and slightly different semantics)

allSameBy _ [] = True
allSameBy _ [_] = True
allSameBy eq (x:xs@(y:_)) = case eq x y of False -> False; True -> allSameBy eq xs
share|improve this answer
I like this idea, except that it uses on and either all or length and groupBy -- which may be viewed as violating the constraint "without using any library function such as filter". – Daniel Wagner Oct 27 '13 at 17:34
True, even if I regard reusing existing functions as merit. :) – augustss Oct 27 '13 at 17:51
I suspect calling allSameBy with (==) `on` ... is quite common. Might be nice to have an allEqualBy f = allSameBy ((==) `on` f) so that you can write allEqualBy color or so (looks pretty!). – Frerich Raabe Nov 29 '13 at 13:28

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