diff --git a/Magic.hs b/Magic.hs index e05b686..4959184 100644 --- a/Magic.hs +++ b/Magic.hs @@ -17,7 +17,8 @@ data Rarity = Land data Card = Card Rarity String Cost deriving (Show, Eq) -instance ManaCost Card where +instance Mana Card where + colors (Card _ _ cost) = colors cost converted (Card _ _ cost) = converted cost data Deck = Deck [Card] @@ -27,5 +28,8 @@ curve (Deck cards) = do let largest = maximum (map converted cards) map (\x -> (x, length (filter (\(Card rarity _ cost) -> rarity /= Land && converted cost == x) cards))) [0..largest] -deck = Deck ((replicate 13 (Card Land "Swamp" (Cost []))) ++ (replicate 13 (Card Land "Plains" (Cost []))) - ++ replicate 4 (Card Mythic "Jace Beleren" (Cost [Mana 1 Colorless, Mana 2 Blue]))) +cards = concat $ [ replicate 13 (Card Land "Swamp" (Cost [] [] [])) + , replicate 13 (Card Land "Plains" (Cost [] [] [])) + , replicate 4 (Card Mythic "Jace Beleren" (Cost [Standard 1 Colorless, Standard 2 Blue] [] [])) + ] +deck = Deck cards diff --git a/Mana.hs b/Mana.hs index d2873e9..cbd4996 100644 --- a/Mana.hs +++ b/Mana.hs @@ -1,5 +1,8 @@ module Mana where +import Data.Char +import Data.List + data Color = Colorless | Black | White @@ -8,35 +11,58 @@ data Color = Colorless | Green deriving (Show, Eq) -data Mana = Mana { amount :: Int - , color :: Color - } deriving (Show, Eq) - -data Cost = Cost [Mana] - deriving (Eq) - -instance Show Cost where - show c = pretty c - -class ManaCost a where +class Mana a where + colors :: a -> [Color] converted :: a -> Int -instance ManaCost Cost where - converted (Cost []) = 0 - converted (Cost cost) = (foldl (\t (Mana x _) -> t + x) 0) cost +data Standard = Standard Int Color + deriving (Eq) -pretty :: Cost -> String -pretty c = do - let filtered c (Cost cost) = converted $ Cost $ filter (\x -> color x == c) cost - let colored = concat [ replicate (filtered Black c) 'B' - , replicate (filtered White c) 'W' - , replicate (filtered Red c) 'R' - , replicate (filtered Blue c) 'U' - , replicate (filtered Green c) 'G' - ] - let colorless = filtered Colorless c - if length colored > 0 && colorless == 0 then - colored - else - (show colorless) ++ colored +instance Mana Standard where + colors (Standard _ x) = [x] + converted (Standard x _) = x +instance Show Standard where + show (Standard n c) + | c == Black = replicate n 'B' + | c == White = replicate n 'W' + | c == Red = replicate n 'R' + | c == Blue = replicate n 'U' + | c == Green = replicate n 'G' + | otherwise = show n + +data Hybrid = Hybrid Standard Standard + deriving (Eq) + +instance Mana Hybrid where + colors (Hybrid x y) = concat [colors x, colors y] + converted (Hybrid x y) = min (converted x) (converted y) + +instance Show Hybrid where + show (Hybrid x y) = map toLower $ "(" ++ (show x) ++ "/" ++ (show y) ++ ")" + +data Phyrexian = Phyrexian Standard + deriving (Eq) + +instance Mana Phyrexian where + colors (Phyrexian x) = colors x + converted (Phyrexian x) = converted x + +instance Show Phyrexian where + show (Phyrexian x) = "(" ++ (map toLower $ show x) ++ "/p)" + +data Cost = Cost [Standard] [Hybrid] [Phyrexian] + deriving (Eq) + +instance Mana Cost where + colors (Cost s h p) = nub $ concat $ [(concat $ map colors s), (concat $ map colors h), (concat $ map colors p)] + converted (Cost s h p) = (sum $ map converted s) + (sum $ map converted h) + (sum $ map converted p) + +instance Show Cost where + show (Cost s h p) = do + let colorless = filter (\x -> colors x == [Colorless]) s + let colored = filter (\x -> colors x /= [Colorless]) s + concat [show $ sum $ map converted colorless + , concat $ map show p + , concat $ map show h + , concat $ map show colored]