125 lines
4.3 KiB
Idris
125 lines
4.3 KiB
Idris
import Data.Fin
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import Data.String
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import Data.Vect
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import Data.List
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import Data.List1
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import System.File.ReadWrite
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import Debug.Trace
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%default total
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simple = """
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30373
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25512
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65332
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33549
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35390
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"""
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-- Parse a grid of numbers from a string
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parseGrid : String -> Maybe (n ** m ** Vect n (Vect m Nat))
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parseGrid input =
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let inputLines = map unpack . filter ((> 0) . strLength) . map trim . lines $ input
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in do digits <- traverse (traverse parsePositive) . map (map Data.String.singleton) $ inputLines
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let height = length digits
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width <- map length . head' $ digits
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inner <- traverse (toVect width) digits
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outer <- toVect height inner
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Just (height ** width ** outer)
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-- Variant of `take` and `drop` that works with fin
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takeFin : {n: Nat} -> (m: Fin n) -> Vect n a -> Vect (finToNat m) a
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takeFin FZ xs = []
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takeFin (FS x) (y :: xs) = y :: takeFin x xs
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dropFin : {n: Nat} -> (m: Fin n) -> Vect n a -> Vect (minus n (finToNat m)) a
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dropFin FZ xs = xs
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dropFin (FS x) (y :: xs) = dropFin x xs
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-- Drop the last element of a Vect
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dropLast : {n : Nat} -> Vect (S n) a -> Vect n a
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dropLast {n = 0} (x :: xs) = xs
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dropLast {n = (S k)} (x :: xs) = x :: dropLast xs
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tagTrace : Show a => String -> a -> a
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tagTrace str =
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traceValBy (\x => str ++ ": " ++ show x)
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-- Check if a tree is visible from the edge of the grid
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checkVisible : {n: Nat} -> {m: Nat} -> (x: Fin n) -> (y: Fin m) -> Vect n (Vect m Nat) -> Bool
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-- If either of the coordinates are zero or the maximum then the tree is on an edge and thus visible
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checkVisible FZ y xs = True
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checkVisible x FZ xs = True
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checkVisible x@(FS _) y@(FS _) xs =
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if x == last || y == last
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then True
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else let horizontal = index x xs
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vertical = index y (transpose xs)
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in checkSingle y horizontal || checkSingle x vertical
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where checkSingle : {o: Nat} -> (z: Fin o) -> Vect o Nat -> Bool
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checkSingle FZ xs = True
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checkSingle z@(FS _) xs =
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let before = takeFin z xs
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after = drop 1 (toList (dropFin z xs))
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compValue = index z xs
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in all (< compValue) before || all (< compValue) after
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showGrid : Vect n (Vect m Nat) -> String
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showGrid xs =
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let lines = map (concatMap show) xs
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in joinBy "\n" (toList lines)
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finPair : (m : Nat) -> (n : Nat) -> (Nat, Nat) -> Maybe (Fin m, Fin n)
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finPair m n (x,y) =
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do a <- natToFin x m
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b <- natToFin y n
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Just (a, b)
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testPart1 : IO ()
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testPart1 =
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case parseGrid simple of
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Nothing => putStrLn "Failed to parse grid"
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Just (m ** n ** grid) =>
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do putStrLn "Grid: "
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putStrLn (showGrid grid)
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putStrLn ""
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case coords m n of
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Nothing => putStrLn "Hardcoded coords were invalid"
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Just cordList => do let testingFn = singleTest m n grid
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traverse_ testingFn cordList
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printLn "Tests Done"
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where coords : (m : Nat) -> (n : Nat) -> Maybe (List ((Fin m, Fin n), Bool))
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coords m n =
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let raw : List ((Nat, Nat), Bool)
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raw = [((1,1), True), ((1, 2), True), ((1, 3), False), ((2, 1), True), ((2, 2), False), ((2, 3), True)]
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in traverse (\(x, y) => map (\z => (z, y)) (finPair m n x)) raw
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singleTest : (m : Nat) -> (n : Nat) -> Vect m (Vect n Nat) -> ((Fin m, Fin n), Bool) -> IO ()
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singleTest m n grid ((x, y), result) =
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do let row = index x grid
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let val = index y row
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putStrLn $ "Coordinate: " ++ show (x,y) ++ " Value: " ++ show val ++ " Expected Visible: " ++ show result
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putStrLn $ "Calculated Visible: " ++ show (checkVisible x y grid) ++ "\n"
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finRange : {n : Nat} -> List (Fin n)
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finRange {n = 0} = []
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finRange {n = (S k)} = forget (allFins k)
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part1 : {m : Nat} -> {n : Nat} -> Vect m (Vect n Nat) -> Nat
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part1 {m} {n} grid =
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let rows = finRange {n=m}
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cols = finRange {n=n}
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pairs = concatMap (\x => map (\y => (x, y)) cols) rows
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in length . Prelude.List.filter (\(x,y) => checkVisible x y grid) $ pairs
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partial main : IO ()
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main =
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do file <- readFile "input"
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case file of
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Left err => printLn err
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Right fileContents =>
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case parseGrid fileContents of
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Nothing => putStrLn "Failed to parse grid"
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Just (m ** n ** grid) =>
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do putStrLn $ "Part 1: " ++ show (part1 grid)
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