parabox/app/Parser.hs

module Parser (parse) where

import Control.Applicative
import Control.Monad
import Data.Array.Unboxed (UArray, listArray)
import Data.Map qualified as Map
import Data.Set qualified as Set
import Graphics.Vty.Attributes
import Text.ParserCombinators.ReadP hiding (many)

import Model

parse :: String -> World
parse str =
  case readP_to_S ((,) <$> parseHeader <*> many parseBlock <* eof) str of
    [] -> error "world parsing failed"
    (((p,h,w),bs),_):_ ->
      do let m = Map.fromListWith (++) [(k,[v]) | (_,_,kvs) <- bs, (k,v) <- kvs]
         World
          (Map.fromList [(n, b { boxLocation = head <$> Map.lookup n m }) | (n,b,_) <- bs])
          p
          (Set.fromList (Map.findWithDefault [] '-' m))
          (head (m Map.! '='))
          (h, w)

parseHeader :: ReadP (Char,Int,Int)
parseHeader =
 do "player" <- token
    [p] <- token
    h <- option 81
          do "height" <- token
             integer
    w <- option (81*2)
          do "width" <- token
             integer
    pure (p,h,w)

integer :: ReadP Int
integer = readS_to_P reads

parseBoring :: ReadP Bool
parseBoring =
 do t <- token
    case t of
      "boring"      -> pure True
      "interesting" -> pure False
      _             -> empty

parseBlock :: ReadP (Char, Box, [(Char, Location)])
parseBlock =
 do cmd <- token
    case cmd of
      "block" ->
       do [name] <- token
          color <- parseColor
          boring <- parseBoring
          skipMany (satisfy (' '==))
          _ <- char '\n'
          xs1 <- parseWalls
          let locs = findLocs name xs1
          let b = Box Nothing (Original (walls xs1)) color boring
          pure (name, b, locs)
      "link" ->
       do [name] <- token
          [target] <- token
          color <- parseColor
          _ <- char '\n'
          pure (name, Box Nothing (Link target) color True, [])
      "infinity" ->
       do [name] <- token
          [target] <- token
          color <- parseColor
          _ <- char '\n'
          pure (name, Box Nothing (Infinity target) color True,[])
      "epsilon" ->
       do [name] <- token
          [target] <- token
          color <- parseColor
          skipMany (satisfy (' '==))
          _ <- char '\n'
          xs1 <- parseWalls
          let locs = findLocs name xs1
          let b = Box Nothing (Epsilon target (walls xs1)) color False
          pure (name, b, locs)
      _ -> empty

parseWalls :: ReadP [String]
parseWalls =
 do row0 <- munch1 ('\n' /=) <* char '\n'
    rows <- replicateM (length row0 - 1) (munch1 ('\n' /=) <* char '\n')
    pure (row0:rows)

token :: ReadP String
token = readS_to_P lex

parseColor :: ReadP Attr
parseColor =
 do t <- token
    case t of
      "white" -> pure (withForeColor defAttr white)
      "cyan" -> pure (withForeColor defAttr cyan)
      "blue" -> pure (withForeColor defAttr blue)
      "red" -> pure (withForeColor defAttr red)
      "yellow" -> pure (withForeColor defAttr yellow)
      "magenta" -> pure (withForeColor defAttr magenta)
      "black" -> pure (withForeColor defAttr black)
      "green" -> pure (withForeColor defAttr green)
      _ -> empty

walls :: [String] -> UArray Coord Bool
walls rows = listArray ((ylo,xlo),(yhi,xhi)) (map ('▓'==) (concat rows))
  where
    width = length (head rows)
    height = length rows
    ylo = - ((height - 1) `div` 2)
    yhi = height `div` 2
    xlo = - ((width - 1) `div` 2)
    xhi = width `div` 2

mkRange :: Int -> (Int, Int)
mkRange n = (-(n-1)`div`2, n`div`2)

findLocs :: Char -> [[Char]] -> [(Char, Location)]
findLocs name xs =
  [ (c, Location name y x)
    | let (ylo, yhi) = mkRange (length xs)
    , (y, row) <- zip [ylo .. yhi] xs
    , let (xlo,xhi) = mkRange (length row)
    , (x, c  ) <- zip [xlo..xhi] row
  ]
big ? 2022-12-07 17:31:07 -08:00			`module Parser (parse) where`
nicer level parser 2022-12-04 16:45:15 -08:00
big ? 2022-12-07 17:31:07 -08:00			`import Control.Applicative`
			`import Control.Monad`
cleaner model 2022-12-08 09:34:27 -08:00			`import Data.Array.Unboxed (UArray, listArray)`
nicer level parser 2022-12-04 16:45:15 -08:00			`import Data.Map qualified as Map`
			`import Data.Set qualified as Set`
big ? 2022-12-07 17:31:07 -08:00			`import Graphics.Vty.Attributes`
configurable sizes 2022-12-07 10:11:06 -08:00			`import Text.ParserCombinators.ReadP hiding (many)`
big ? 2022-12-07 17:31:07 -08:00
			`import Model`
nicer level parser 2022-12-04 16:45:15 -08:00
			`parse :: String -> World`
configurable sizes 2022-12-07 10:11:06 -08:00			`parse str =`
			`case readP_to_S ((,) <$> parseHeader <> many parseBlock < eof) str of`
			`[] -> error "world parsing failed"`
			`(((p,h,w),bs),_):_ ->`
			`do let m = Map.fromListWith (++) [(k,[v]) \| (_,_,kvs) <- bs, (k,v) <- kvs]`
			`World`
big ? 2022-12-07 17:31:07 -08:00			`(Map.fromList [(n, b { boxLocation = head <$> Map.lookup n m }) \| (n,b,_) <- bs])`
configurable sizes 2022-12-07 10:11:06 -08:00			`p`
nicer level parser 2022-12-04 16:45:15 -08:00			`(Set.fromList (Map.findWithDefault [] '-' m))`
			`(head (m Map.! '='))`
cleaner model 2022-12-08 09:34:27 -08:00			`(h, w)`
handle blocks having undefined location 2022-12-07 13:37:02 -08:00
configurable sizes 2022-12-07 10:11:06 -08:00			`parseHeader :: ReadP (Char,Int,Int)`
			`parseHeader =`
			`do "player" <- token`
			`[p] <- token`
			`h <- option 81`
			`do "height" <- token`
			`integer`
			`w <- option (81*2)`
			`do "width" <- token`
			`integer`
			`pure (p,h,w)`
nicer level parser 2022-12-04 16:45:15 -08:00
configurable sizes 2022-12-07 10:11:06 -08:00			`integer :: ReadP Int`
			`integer = readS_to_P reads`
nicer level parser 2022-12-04 16:45:15 -08:00
configurable sizes 2022-12-07 10:11:06 -08:00			`parseBoring :: ReadP Bool`
			`parseBoring =`
			`do t <- token`
			`case t of`
big ? 2022-12-07 17:31:07 -08:00			`"boring" -> pure True`
configurable sizes 2022-12-07 10:11:06 -08:00			`"interesting" -> pure False`
big ? 2022-12-07 17:31:07 -08:00			`_ -> empty`
nicer level parser 2022-12-04 16:45:15 -08:00
configurable sizes 2022-12-07 10:11:06 -08:00			`parseBlock :: ReadP (Char, Box, [(Char, Location)])`
			`parseBlock =`
			`do cmd <- token`
			`case cmd of`
			`"block" ->`
			`do [name] <- token`
			`color <- parseColor`
			`boring <- parseBoring`
			`skipMany (satisfy (' '==))`
			`_ <- char '\n'`
			`xs1 <- parseWalls`
			`let locs = findLocs name xs1`
handle blocks having undefined location 2022-12-07 13:37:02 -08:00			`let b = Box Nothing (Original (walls xs1)) color boring`
configurable sizes 2022-12-07 10:11:06 -08:00			`pure (name, b, locs)`
			`"link" ->`
			`do [name] <- token`
			`[target] <- token`
			`color <- parseColor`
			`_ <- char '\n'`
big ? 2022-12-07 17:31:07 -08:00			`pure (name, Box Nothing (Link target) color True, [])`
configurable sizes 2022-12-07 10:11:06 -08:00			`"infinity" ->`
			`do [name] <- token`
			`[target] <- token`
			`color <- parseColor`
			`_ <- char '\n'`
big ? 2022-12-07 17:31:07 -08:00			`pure (name, Box Nothing (Infinity target) color True,[])`
configurable sizes 2022-12-07 10:11:06 -08:00			`"epsilon" ->`
			`do [name] <- token`
			`[target] <- token`
			`color <- parseColor`
			`skipMany (satisfy (' '==))`
			`_ <- char '\n'`
			`xs1 <- parseWalls`
			`let locs = findLocs name xs1`
big ? 2022-12-07 17:31:07 -08:00			`let b = Box Nothing (Epsilon target (walls xs1)) color False`
configurable sizes 2022-12-07 10:11:06 -08:00			`pure (name, b, locs)`
			`_ -> empty`
support sizes other than 9 2022-12-06 13:39:30 -08:00
configurable sizes 2022-12-07 10:11:06 -08:00			`parseWalls :: ReadP [String]`
			`parseWalls =`
			`do row0 <- munch1 ('\n' /=) <* char '\n'`
			`rows <- replicateM (length row0 - 1) (munch1 ('\n' /=) <* char '\n')`
			`pure (row0:rows)`

			`token :: ReadP String`
			`token = readS_to_P lex`

			`parseColor :: ReadP Attr`
			`parseColor =`
			`do t <- token`
			`case t of`
			`"white" -> pure (withForeColor defAttr white)`
			`"cyan" -> pure (withForeColor defAttr cyan)`
			`"blue" -> pure (withForeColor defAttr blue)`
			`"red" -> pure (withForeColor defAttr red)`
			`"yellow" -> pure (withForeColor defAttr yellow)`
			`"magenta" -> pure (withForeColor defAttr magenta)`
			`"black" -> pure (withForeColor defAttr black)`
			`"green" -> pure (withForeColor defAttr green)`
			`_ -> empty`
nicer level parser 2022-12-04 16:45:15 -08:00
cleaner model 2022-12-08 09:34:27 -08:00			`walls :: [String] -> UArray Coord Bool`
support sizes other than 9 2022-12-06 13:39:30 -08:00			`walls rows = listArray ((ylo,xlo),(yhi,xhi)) (map ('▓'==) (concat rows))`
			`where`
			`width = length (head rows)`
			`height = length rows`
			ylo = - ((height - 1) `div` 2)
			yhi = height `div` 2
			xlo = - ((width - 1) `div` 2)
			xhi = width `div` 2

			`mkRange :: Int -> (Int, Int)`
			mkRange n = (-(n-1)`div`2, n`div`2)
nicer level parser 2022-12-04 16:45:15 -08:00
			`findLocs :: Char -> [[Char]] -> [(Char, Location)]`
			`findLocs name xs =`
			`[ (c, Location name y x)`
support sizes other than 9 2022-12-06 13:39:30 -08:00			`\| let (ylo, yhi) = mkRange (length xs)`
			`, (y, row) <- zip [ylo .. yhi] xs`
			`, let (xlo,xhi) = mkRange (length row)`
			`, (x, c ) <- zip [xlo..xhi] row`
			`]`