94 lines
4.1 KiB
Haskell
94 lines
4.1 KiB
Haskell
import Data.List.Split
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import qualified Data.List as L
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import Data.Vector as V
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import Data.Char
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import Data.Ord
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import Debug.Trace
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import System.Exit
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main = do
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content <- readFile "input"
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-- let content = "3,23,3,24,1002,24,10,24,1002,23,-1,23,101,5,23,23,1,24,23,23,4,23,99,0,0"
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--let content = "3,15,3,16,1002,16,10,16,1,16,15,15,4,15,99,0,0"
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-- let content = "3,31,3,32,1002,32,10,32,1001,31,-2,31,1007,31,0,33,1002,33,7,33,1,33,31,31,1,32,31,31,4,31,99,0,0,0"
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--day5 example:
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-- let content = "3,21,1008,21,8,20,1005,20,22,107,8,21,20,1006,20,31,1106,0,36,98,0,0,1002,21,125,20,4,20,1105,1,46,104,999,1105,1,46,1101,1000,1,20,4,20,1105,1,46,98,99"
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-- part2:
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let content = "3,26,1001,26,-4,26,3,27,1002,27,2,27,1,27,26,27,4,27,1001,28,-1,28,1005,28,6,99,0,0,5"
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let input = fromList $ L.concatMap (L.map read . splitOn ",") (lines content)
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-- let intseq = [0,1,2,3,4]
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let intseq = [9,8,7,6,5]
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-- let ret = run_amps input intseq [0]
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-- print $ "Final result:" L.++ (show ret)
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print $ find_max input
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-- print $ find_max2 input
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print $ run_amps_feedback input intseq [0] [0,0,0,0,0]
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run_amps tm [] prev = prev
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run_amps tm (x:xs) prev = run_amps tm xs next
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where (_,_,_,next,_) = exec_steps (tm,0,x:prev,[],Continue)
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run_amps_feedback tm [] prev pointer = prev
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run_amps_feedback tm (x:xs) prev (p:ps) =
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if halt == Halt then traceShow "Output!" tm_out else
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run_amps_feedback tm (xs L.++ [x]) tm_out (ps L.++ [p_new])
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where (_,p_new,tm_in,tm_out,halt) = exec_steps (tm,p,x:prev,[],Continue)
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--todo: [x] -> x
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find_max input = L.maximum [(L.head $ run_amps input [a,b,c,d,e] [0], [a,b,c,d,e])
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| a<-[0..4], b<-[0..4], c<-[0..4], d<-[0..4], e<-[0..4],
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L.nub [a,b,c,d,e] == [a,b,c,d,e]]
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find_max2 input = L.maximum [(L.head $ run_amps_feedback input [a,b,c,d,e] [0] [0,0,0,0,0], [a,b,c,d,e])
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| a<-[5..9], b<-[5..9], c<-[5..9], d<-[5..9], e<-[5..9],
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L.nub [a,b,c,d,e] == [a,b,c,d,e]]
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opl x
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| n`L.elem`"1278"=4
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| n`L.elem`"56"=3
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| n`L.elem`"34"=2
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| otherwise=1
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where n = L.last $ show x
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parsemodes :: String -> [Bool]
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parsemodes m = L.replicate (3 - L.length l) False L.++ l
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where l = L.map (toEnum . digitToInt) m
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paramch m opvec t = imap f (V.tail opvec)
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where f i a = if (L.reverse m) !! i then a else t ! a
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getopmodes opvec = (op_dedup,parsed_modes)
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where (op,modes) = L.splitAt 2 $ L.reverse $ show $ opvec ! 0
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parsed_modes = parsemodes $ L.reverse modes
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op_dedup = if L.last op == '0' then [L.head op] else op
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data OutAction = Continue | Output | Halt deriving (Enum, Eq, Show)
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step :: Vector Int -> (Vector Int, Int, [Int], [Int]) -> (Vector Int, Int, OutAction, [Int], [Int])
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step opvec (t,p,input,val)
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| op=="1" = ((t // [((V.last opvec), (params ! 0) + (params ! 1))]),p,Continue,input,val)
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| op=="2" = ((t // [((V.last opvec), (params ! 0) * (params ! 1))]),p,Continue,input,val)
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| op=="3" = ((t // [((V.last opvec), L.head input)]),p,Continue,L.tail input,val)
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| op=="4" = (t,p,Output,input,(V.last $ params):val)
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| op=="5" = (t, if (params ! 0)/=0 then (params ! 1) else p,Continue,input,val)
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| op=="6" = (t, if (params ! 0)==0 then (params ! 1) else p,Continue,input,val)
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| op=="7" = ((t // [((V.last opvec), if (params ! 0)<(params ! 1)
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then 1 else 0)]),p,Continue,input,val)
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| op=="8" = ((t // [((V.last opvec), if (params ! 0)==(params ! 1)
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then 1 else 0)]),p,Continue,input,val)
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| op=="99" = (t,p,Halt,input,val)
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where (op,m) = getopmodes opvec
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params = paramch m opvec t
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exec_steps :: (Vector Int, Int, [Int], [Int], OutAction) -> (Vector Int, Int, [Int], [Int], OutAction)
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exec_steps (t,p,input,val,halt) =
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let command_length = opl $ t ! p
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opvec = slice p command_length t
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(t_new,p_new,cond,input_new,val_new) =
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traceShowId (step opvec (t,p+command_length,input,val)) in
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if cond == Output then (t_new,p_new,input_new,val_new,cond)
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else exec_steps (t_new,p_new,input_new,val_new,cond)
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