AoC/2019/day7/day7.hs

import Data.List.Split
import qualified Data.List as L
import Data.Vector as V
import Data.Char

data OutAction = Continue | Output | Halt deriving (Enum, Eq, Show)
type Tape = Vector Int
type TapeSection = Vector Int
type TuringMachine = (Tape,Int)

main = do
    content <- readFile "input"
    let tape = fromList $ L.concatMap (L.map read . splitOn ",") (lines content)
    print $ findMax tape [0..4]
    print $ findMax tape [5..9]

findMax :: Tape -> [Int] -> Int
findMax tape range = L.maximum [runAmps tape xs | xs <- L.permutations range]

runAmps :: Tape -> [Int] -> Int
runAmps tape intseq = L.head $ runAmps' tms intseq [0]
    where tms = L.replicate 5 (tape,0)

runAmps' :: [TuringMachine] -> [Int] -> [Int] -> [Int]
runAmps' ((t,p):tms) intseq prev =
    if halt == Halt then prev else
        runAmps' (tms L.++ [tm_new]) tailseq tm_out
    where (tm_new,tm_in,tm_out,halt) = execSteps ((t,p),xprev,[],Continue)
          tailseq = if L.null intseq then [] else L.tail intseq
          xprev = if L.null intseq then prev else L.head intseq:prev

opLength :: Int -> Int
opLength x
    | n`L.elem`"1278"=4
    | n`L.elem`"56"=3
    | n`L.elem`"34"=2
    | otherwise=1
    where n = L.last $ show x

parseModes :: String -> [Bool]
parseModes m = L.replicate (3 - L.length l) False L.++ l
    where l = L.map (toEnum . digitToInt) m

paramChange :: [Bool] -> TapeSection -> Tape -> TapeSection
paramChange m opvec t = imap f (V.tail opvec)
    where f i a = if L.reverse m !! i then a else t ! a

getOpModes :: TapeSection -> (String, [Bool])
getOpModes opvec = (op_dedup,parsed_modes)
    where (op,modes) = L.splitAt 2 $ L.reverse $ show $ opvec ! 0
          parsed_modes = parseModes $ L.reverse modes
          op_dedup = if L.last op == '0' then [L.head op] else op

step :: TapeSection -> (TuringMachine, [Int], [Int]) -> (TuringMachine, OutAction, [Int], [Int])
step opvec ((t,p),input,val)
        | op=="1" = (tm_binop (+),Continue,input,val)
        | op=="2" = (tm_binop (*),Continue,input,val)
        | op=="3" = (new_tm t (L.head input),Continue,L.tail input,val)
        | op=="4" = ((t,p),Output,input,V.last params:val)
        | op=="5" = ((t, if params ! 0/=0 then params ! 1 else p),Continue,input,val)
        | op=="6" = ((t, if params ! 0==0 then params ! 1 else p),Continue,input,val)
        | op=="7" = (new_tm t (if (params ! 0)<(params ! 1)
                    then 1 else 0),Continue,input,val)
        | op=="8" = (new_tm t (if (params ! 0)==(params ! 1)
                    then 1 else 0),Continue,input,val)
        | op=="99" = ((t,p),Halt,input,val)
        where (op,m) = getOpModes opvec
              params = paramChange m opvec t
              tm_binop x = new_tm t ((params ! 0) `x` (params ! 1))
              new_tm t x = (t // [(V.last opvec, x)],p)

execSteps :: (TuringMachine, [Int], [Int], OutAction) -> (TuringMachine, [Int], [Int], OutAction)
execSteps ((t,p),input,output,halt) =
    let command_length = opLength $ t ! p
        opvec = slice p command_length t
        ((t_new,p_new),cond,input_new,output_new) =
            step opvec ((t,p+command_length),input,output) in
    if cond `L.elem` [Output, Halt] then ((t_new,p_new),input_new,output_new,cond)
        else execSteps ((t_new,p_new),input_new,output_new,cond)