parabox/app/Model.hs

227 lines
6.9 KiB
Haskell
Raw Normal View History

2022-12-02 10:54:31 -08:00
module Model where
import Data.Array
import Data.Map (Map)
import Data.Map qualified as Map
import Graphics.Vty
import Control.Monad
import Data.Maybe
import Data.Set qualified as Set
2022-12-02 20:53:45 -08:00
import Data.Set (Set)
2022-12-02 10:54:31 -08:00
type Coord = (Int, Int)
data Box = Box {
boxLocation :: Maybe Location,
2022-12-02 15:28:05 -08:00
boxType :: BoxType,
2022-12-03 13:33:02 -08:00
boxColor :: Attr,
boxBoring :: Bool
2022-12-02 10:54:31 -08:00
}
deriving (Show, Read, Eq)
2022-12-02 15:28:05 -08:00
boxWalls :: World -> Box -> Array Coord Bool
boxWalls world box =
case boxType box of
Original walls -> walls
Link c -> boxWalls world (worldBoxes world Map.! c)
2022-12-04 15:59:22 -08:00
Infinity c -> boxWalls world (worldBoxes world Map.! c)
Epsilon _ walls -> walls
2022-12-02 15:28:05 -08:00
data BoxType
= Original (Array Coord Bool)
2022-12-04 15:59:22 -08:00
| Link Char
| Infinity Char
| Epsilon Char (Array Coord Bool)
2022-12-02 15:28:05 -08:00
deriving (Show, Read, Eq)
2022-12-04 15:59:22 -08:00
data Location = Location { locName :: Char, locY :: Int, locX :: Int }
2022-12-02 10:54:31 -08:00
deriving (Read, Show, Ord, Eq)
data World = World {
worldBoxes :: Map Char Box,
2022-12-02 20:53:45 -08:00
worldMe :: Char,
worldButtons :: Set Location,
2022-12-07 10:11:06 -08:00
worldHome :: Location,
worldHeight :: Int,
worldWidth :: Int
2022-12-02 10:54:31 -08:00
}
deriving (Show, Read, Eq)
2022-12-02 21:33:44 -08:00
winCondition :: World -> Bool
winCondition world =
Set.isSubsetOf (worldButtons world) coverage &&
Just (worldHome world) == boxLocation (worldBoxes world Map.! worldMe world)
2022-12-02 21:33:44 -08:00
where
coverage = Set.fromList $ mapMaybe boxLocation $ Map.elems (worldBoxes world)
2022-12-02 21:33:44 -08:00
2022-12-02 10:54:31 -08:00
2022-12-02 15:28:05 -08:00
boxSize :: World -> Box -> Int
boxSize world box = yhi-ylo+1
2022-12-02 10:54:31 -08:00
where
2022-12-02 15:28:05 -08:00
((ylo,_),(yhi,_)) = bounds (boxWalls world box)
2022-12-02 10:54:31 -08:00
move :: World -> (Int,Int) -> World
move world dir =
case myLocation world of
2022-12-02 10:54:31 -08:00
Nothing -> world
Just loc ->
case moveBlock world Map.empty loc dir 0 of
Nothing -> world
Just changes ->
let f box change = box { boxLocation = change } in
world { worldBoxes = Map.mergeWithKey (\_ a b -> Just (f a b)) id (const Map.empty) (worldBoxes world) changes}
myLocation :: World -> Maybe Location
2022-12-02 10:54:31 -08:00
myLocation world =
boxLocation (worldBoxes world Map.! worldMe world)
2022-12-02 15:28:05 -08:00
isWall :: World -> Location -> Bool
isWall world (Location n y x) =
2022-12-02 10:54:31 -08:00
case Map.lookup n (worldBoxes world) of
Nothing -> True
2022-12-02 15:28:05 -08:00
Just box -> boxWalls world box ! (y,x)
2022-12-02 10:54:31 -08:00
type Movement = (Int, Int)
moveBlock ::
World ->
Map Location (Int, Char, Maybe Location) ->
2022-12-02 10:54:31 -08:00
Location ->
Movement ->
2022-12-02 18:49:26 -08:00
Rational {- ^ offset -} ->
Maybe (Map Char (Maybe Location))
2022-12-02 10:54:31 -08:00
-- moving into a wall, not possible
2022-12-02 18:49:26 -08:00
moveBlock world _ loc _ _
2022-12-02 15:28:05 -08:00
| isWall world loc = Nothing
2022-12-02 10:54:31 -08:00
-- move introduced a loop, trim off the tail and report success
2022-12-02 18:49:26 -08:00
moveBlock _ visited loc _ _
| Just (n,_,_) <- Map.lookup loc visited
= Just (Map.fromList [(c,l) | (a,c,l) <- Map.elems visited, a >= n])
2022-12-02 10:54:31 -08:00
2022-12-02 18:49:26 -08:00
moveBlock world visited loc dir offset =
case [(n,box) | (n,box) <- Map.assocs (worldBoxes world), boxLocation box == Just loc] of
2022-12-02 10:54:31 -08:00
-- moving an empty space, so we're done
[] -> Just (Map.fromList [(c,l) | (_,c,l) <- Map.elems visited])
2022-12-02 10:54:31 -08:00
-- moving a box
(name,box):_ ->
case nextLoc world dir loc offset of
Nothing -> Just (Map.fromList ((name, Nothing) : [(c,l) | (_,c,l) <- Map.elems visited]))
Just (loc', offset') ->
do guard (not (isWall world loc'))
moveBlock' world visited loc loc' dir name box Set.empty offset'
2022-12-02 10:54:31 -08:00
2022-12-02 11:48:03 -08:00
moveBlock' ::
World ->
Map Location (Int, Char, Maybe Location) ->
Location ->
Location ->
Movement ->
Char ->
2022-12-02 18:49:26 -08:00
Box ->
2022-12-04 15:59:22 -08:00
Set Location ->
2022-12-02 18:49:26 -08:00
Rational {- ^ offset -} ->
Maybe (Map Char (Maybe Location))
2022-12-04 15:59:22 -08:00
moveBlock' world visited loc loc' dir name box enters offset =
2022-12-02 11:48:03 -08:00
msum [moveTo, moveInto, moveToEat]
2022-12-02 10:54:31 -08:00
where
2022-12-02 11:48:03 -08:00
moveTo =
do moveBlock world (addVisited name loc (Just loc') visited) loc' dir 0
2022-12-02 10:54:31 -08:00
2022-12-02 11:48:03 -08:00
moveInto =
2022-12-02 10:54:31 -08:00
do (n,b) <- boxAt world loc'
2022-12-04 15:59:22 -08:00
(locI, offset') <- enterLoc world n b dir offset
if Set.member locI enters then
moveEpsilon
2022-12-04 15:59:22 -08:00
else
moveBlock' world visited loc locI dir name box (Set.insert locI enters) offset'
moveEpsilon =
do epsilon <- findEpsilon world (locName loc')
let eBox = worldBoxes world Map.! epsilon
(locI, offset') <- enterLoc world epsilon eBox dir offset
moveBlock' world visited loc locI dir name box (Set.insert locI enters) offset'
2022-12-02 11:48:03 -08:00
moveToEat =
2022-12-02 10:54:31 -08:00
do let dir' = invert dir
2022-12-04 15:59:22 -08:00
(locE, _) <- enterLoc world name box dir' 0
(name', box') <- boxAt world loc'
moveBlock' world (addVisited name loc (Just loc') visited) loc' locE dir' name' box' Set.empty 0
2022-12-02 10:54:31 -08:00
2022-12-04 15:59:22 -08:00
enterLoc :: World -> Char -> Box -> Movement -> Rational -> Maybe (Location, Rational)
2022-12-02 18:49:26 -08:00
enterLoc world name box dir@(dy,dx) offset =
2022-12-04 15:59:22 -08:00
do name' <-
case boxType box of
Link c -> Just c
Original{} -> Just name
Infinity{} -> Nothing
Epsilon {} -> Just name
let go y x = Just
(Location name' y x,
fromIntegral(boxSize world box) * offset
- fromIntegral ((abs dy *x + abs dx*y)))
2022-12-04 15:59:22 -08:00
((ylo,xlo),(yhi,xhi)) = bounds (boxWalls world box)
2022-12-02 18:49:26 -08:00
2022-12-04 15:59:22 -08:00
case dir of
(-1, 0) -> go yhi (midpoint xlo xhi offset)
( 1, 0) -> go ylo (midpoint xlo xhi offset)
( 0,-1) -> go (midpoint ylo yhi offset) xhi
( 0, 1) -> go (midpoint ylo yhi offset) xlo
_ -> error "enterLoc: bad direction"
2022-12-02 10:54:31 -08:00
boxAt :: World -> Location -> Maybe (Char, Box)
boxAt world loc =
listToMaybe [(n,b) | (n,b) <- Map.assocs (worldBoxes world), boxLocation b == Just loc]
2022-12-02 10:54:31 -08:00
2022-12-02 11:48:03 -08:00
invert :: Movement -> Movement
2022-12-02 10:54:31 -08:00
invert (dy,dx) = (-dy, -dx)
2022-12-02 18:49:26 -08:00
midpoint :: Int -> Int -> Rational -> Int
midpoint lo hi offset = round (offset * fromIntegral (hi-lo+1))
2022-12-02 10:54:31 -08:00
2022-12-02 11:48:03 -08:00
addVisited ::
Char {- ^ name -} ->
2022-12-02 11:48:03 -08:00
Location {- ^ start -} ->
Maybe Location {- ^ end -} ->
Map Location (Int, Char, Maybe Location) ->
Map Location (Int, Char, Maybe Location)
addVisited name k v m = Map.insert k (Map.size m, name, v) m
2022-12-02 10:54:31 -08:00
2022-12-02 18:49:26 -08:00
nextLoc :: World -> Movement -> Location -> Rational -> Maybe (Location, Rational)
nextLoc world (dy, dx) = go Set.empty
2022-12-02 10:54:31 -08:00
where
2022-12-02 18:49:26 -08:00
go _ (Location b y x) offset
2022-12-02 10:54:31 -08:00
| Just box <- Map.lookup b (worldBoxes world)
2022-12-02 15:28:05 -08:00
, inRange (bounds (boxWalls world box)) (y+dy, x+dx)
2022-12-02 18:49:26 -08:00
= Just (Location b (y+dy) (x+dx), offset)
2022-12-02 18:49:26 -08:00
go visited (Location b y x) offset
2022-12-02 10:54:31 -08:00
| Just box <- Map.lookup b (worldBoxes world)
, Set.notMember b visited
, Just boxLoc <- boxLocation box
= go (Set.insert b visited) boxLoc
2022-12-02 18:49:26 -08:00
$ (offset + fromIntegral (abs dy*x+abs dx*y))
/ fromIntegral (boxSize world box)
2022-12-02 10:54:31 -08:00
2022-12-04 15:59:22 -08:00
go visited (Location b y x) offset
| Set.member b visited
, Just b' <- findInfinity world b
= go visited (Location b' y x) offset
2022-12-02 18:49:26 -08:00
go _ _ _ = Nothing
2022-12-02 10:54:31 -08:00
2022-12-04 15:59:22 -08:00
findInfinity :: World -> Char -> Maybe Char
findInfinity world b =
listToMaybe [b' | (b', box) <- Map.assocs (worldBoxes world)
, Infinity i <- [boxType box], i == b]
2022-12-04 15:59:22 -08:00
findEpsilon :: World -> Char -> Maybe Char
findEpsilon world b =
listToMaybe [b' | (b', box) <- Map.assocs (worldBoxes world)
, Epsilon i _ <- [boxType box], i == b]