98 lines
3.2 KiB
Haskell
98 lines
3.2 KiB
Haskell
import Data.List.Split
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import Data.Char as Char
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main = do
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let content = [1002,4,3,4,33]
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let input = []
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let output = operation content content 0 input []
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mapM putStrLn (map show output)
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getList :: String -> [Int]
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getList = map read . splitOn ","
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changeInput :: [Int] -> Int -> Int -> [Int]
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changeInput (begin:_:_:input) input1 input2= [begin] ++ [input1] ++ [input2] ++ input
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func :: [Int] -> Int -> Int -> Int
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func xs x y = do
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let input = changeInput xs x y
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head (compute input input 0 [] [] )
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compute :: [Int] -> [Int] -> Int -> [Int] -> [Int] -> [Int]
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compute (99:_) state index input output = state
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compute (op:x:y:z:_) state index input output=
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compute (drop newindex state) newstate newindex input output
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where
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sum = if op == 1 then
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(state !! x) + (state !! y)
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else
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(state !! x) * (state !! y)
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split = splitAt z state
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newstate = (fst split) ++ [sum] ++ (drop 1 (snd split))
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newindex = index + 4
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operation :: [Int] -> [Int] -> Int -> [Int] -> [Int] -> [Int]
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operation (99:_) state index input output =
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state
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operation (op:x:y:z:_) state index input output
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| last (digits op) == 1 = do
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let newindex = index + 4
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let newstate = add (fillup (revertdigs op) 5) x y z state
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operation (drop newindex newstate) newstate newindex input output
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| last (digits op) == 2 = do
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let newindex = index + 4
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let newstate = mult (fillup (revertdigs op) 5) x y z state
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operation (drop newindex newstate) newstate newindex input output
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| last (digits op) == 3 = do
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let newindex = index + 2
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let newstate = put (fillup (revertdigs op) 3) x (head input) state
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let newinput = drop 1 input
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operation (drop newindex newstate) newstate newindex newinput output
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| last (digits op) == 4 = do
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let newindex = index + 2
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let newoutput = out (fillup (revertdigs op) 3) output x state
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let newinput = drop 1 input
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operation (drop newindex state) state newindex input newoutput
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add :: [Int] -> Int -> Int -> Int -> [Int] -> [Int]
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add (op1:op2:m1:m2:m3:_) p1 p2 p3 state =
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insert state sum p3
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where
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sum = (getValue m1 p1 state) + (getValue m2 p2 state)
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mult :: [Int] -> Int -> Int -> Int -> [Int] -> [Int]
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mult (op1:op2:m1:m2:m3:_) p1 p2 p3 state =
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insert state sum p3
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where
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sum = (getValue m1 p1 state) * (getValue m2 p2 state)
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put :: [Int] -> Int -> Int -> [Int] -> [Int]
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put(op1:op2:m1:_) p1 input state =
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insert state input p1
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out :: [Int] -> [Int] -> Int -> [Int] -> [Int]
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out (op1:op2:m1:_) output p1 state =
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output ++ [(state !! (getValue m1 p1 state))]
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insert :: [Int] -> Int -> Int -> [Int]
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insert xs value index = do
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let split = splitAt index xs
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(fst split)++ [value] ++ (drop 1 (snd split))
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digits :: Int -> [Int]
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digits = map Char.digitToInt . show
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revertdigs :: Int -> [Int]
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revertdigs 0 = []
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revertdigs x = x `mod` 10 : revertdigs (x `div` 10)
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fillup :: [Int] -> Int -> [Int]
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fillup array x = array ++ (replicate (x - (length array)) 0)
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getValue :: Int -> Int -> [Int] -> Int
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getValue 0 index array = array !! index
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getValue 1 index array = index
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