module Language.Symantic.Document.Sym where import Data.Char (Char) import Data.Foldable (Foldable(..)) import Data.Function ((.), ($)) import Data.Functor (Functor(..)) import Data.Int (Int, Int64) import Data.Ord (Ord(..), Ordering(..)) import Data.Semigroup (Semigroup(..)) import Data.String (String, IsString) import Data.Text (Text) import Prelude (Integer, toInteger, fromIntegral, Num(..)) import qualified Data.List as L import qualified Data.Text as T import qualified Data.Text.Lazy as TL -- * Class 'Doc_Text' class (IsString d, Semigroup d) => Doc_Text d where charH :: Char -> d -- ^ XXX: MUST NOT be '\n' stringH :: String -> d -- ^ XXX: MUST NOT contain '\n' textH :: Text -> d -- ^ XXX: MUST NOT contain '\n' ltextH :: TL.Text -> d -- ^ XXX: MUST NOT contain '\n' replicate :: Int -> d -> d integer :: Integer -> d default replicate :: Doc_Text (ReprOf d) => Trans d => Int -> d -> d default integer :: Doc_Text (ReprOf d) => Trans d => Integer -> d default charH :: Doc_Text (ReprOf d) => Trans d => Char -> d default stringH :: Doc_Text (ReprOf d) => Trans d => String -> d default textH :: Doc_Text (ReprOf d) => Trans d => Text -> d default ltextH :: Doc_Text (ReprOf d) => Trans d => TL.Text -> d charH = trans . charH stringH = trans . stringH textH = trans . textH ltextH = trans . ltextH replicate = trans1 . replicate integer = trans . integer empty :: d newline :: d space :: d (<+>) :: d -> d -> d int :: Int -> d char :: Char -> d string :: String -> d text :: Text -> d ltext :: TL.Text -> d catH :: Foldable f => f d -> d catV :: Foldable f => f d -> d foldrWith :: Foldable f => (d -> d -> d) -> f d -> d foldWith :: Foldable f => (d -> d) -> f d -> d intercalate :: Foldable f => d -> f d -> d between :: d -> d -> d -> d newline = "\n" space = char ' ' x <+> y = x <> space <> y int = integer . toInteger char = \case '\n' -> newline; c -> charH c string = catV . fmap stringH . L.lines text = catV . fmap textH . T.lines ltext = catV . fmap ltextH . TL.lines catH = foldr (<>) empty catV = foldrWith (\x y -> x<>newline<>y) foldrWith f ds = if null ds then empty else foldr1 f ds foldWith f = foldrWith (\a acc -> a <> f acc) intercalate sep = foldrWith (\x y -> x<>sep<>y) between o c d = o<>d<>c -- default catH :: Doc_Text (ReprOf d) => Trans d => Foldable f => Functor f => f d -> d -- default catV :: Doc_Text (ReprOf d) => Trans d => Foldable f => Functor f => f d -> d -- catH l = trans (catH (fmap unTrans l)) -- catV l = trans (catV (fmap unTrans l)) -- * Class 'Doc_Align' class Doc_Text d => Doc_Align d where type Column d type Column d = Int type Indent d type Indent d = Int -- | @align d@, make @d@ uses current 'Column' as 'Indent' level. align :: d -> d -- | @hang ind d@, make @d@ uses current 'Column' plus @ind@ as 'Indent' level. hang :: Indent d -> d -> d hang ind = align . incrIndent ind -- | @incrIndent ind d@, make @d@ uses current 'Indent' plus @ind@ as 'Indent' level. incrIndent :: Indent d -> d -> d -- | @withIndent ind d@, make @d@ uses @ind@ as 'Indent' level. withIndent :: Indent d -> d -> d -- | @withNewline nl d@, make @d@ uses @nl@ as 'newline'. withNewline :: d -> d -> d -- | @column f@, return @f@ applied to the current 'Column'. column :: (Column d -> d) -> d -- | @endToEndWidth d f@, return @d@ concatenated to -- @f@ applied to the difference between the end 'Column' and start 'Column' of @d@. -- -- Note that @f@ is given the end-to-end width, -- which is not necessarily the maximal width. default endToEndWidth :: Semigroup d => Num (Column d) => d -> (Column d -> d) -> d endToEndWidth :: d -> (Column d -> d) -> d endToEndWidth d f = column $ \c1 -> (d <>) $ column $ \c2 -> f $ c2 - c1 -- | @spaces ind@, replicates 'space' @ind@ times. default spaces :: Indent d ~ Int => Indent d -> d spaces :: Indent d -> d spaces i = replicate i space default fill :: Indent d ~ Int => Column d ~ Int => Indent d -> d -> d fill :: Indent d -> d -> d fill m d = endToEndWidth d $ \w -> case w`compare`m of LT -> spaces $ m - w _ -> empty default breakableFill :: Indent d ~ Int => Column d ~ Int => Indent d -> d -> d breakableFill :: Indent d -> d -> d breakableFill m d = endToEndWidth d $ \w -> case w`compare`m of LT -> spaces $ m - w EQ -> empty GT -> incrIndent m newline -- * Class 'Doc_Wrap' class (Doc_Text d, Doc_Align d) => Doc_Wrap d where -- | @ifFit onFit onNoFit@, -- return @onFit@ if @onFit@ leads to a 'Column' -- lower or equal to the one sets with 'withWrapColumn', -- otherwise return @onNoFit@. ifFit :: d -> d -> d -- | @breakpoint onNoBreak onBreak d@, -- return @onNoBreak@ then @d@ if they fit, -- @onBreak@ otherwise. breakpoint :: d -> d -> d -> d -- | @breakableEmpty d@, return @d@ if it fits, 'newline' then @d@ otherwise. breakableEmpty :: d -> d breakableEmpty = breakpoint empty newline -- | @breakableSpace d@, return 'space' then @d@ it they fit, 'newline' then @d@ otherwise. breakableSpace :: d -> d breakableSpace = breakpoint space newline -- | @breakableSpaces ds@ intercalate a 'breakableSpace' between items of @ds@. breakableSpaces :: Foldable f => f d -> d breakableSpaces = foldWith breakableSpace -- | @withWrapColumn col d@ set the 'Column' triggering wrapping to @col@ within @d@. withWrapColumn :: Column d -> d -> d -- | @intercalateHorV sep ds@, -- return @ds@ with @sep@ intercalated if the whole fits, -- otherwise return 'align' of @ds@ with 'newline' and @sep@ intercalated. intercalateHorV :: Foldable f => d -> f d -> d intercalateHorV sep xs = ifFit (foldr1 (\a acc -> a <> sep <> acc) xs) (align $ foldr1 (\a acc -> a <> newline <> sep <> acc) xs) -- * Class 'Doc_Color' class Doc_Color d where reverse :: d -> d -- Foreground colors -- Dull black :: d -> d red :: d -> d green :: d -> d yellow :: d -> d blue :: d -> d magenta :: d -> d cyan :: d -> d white :: d -> d -- Vivid blacker :: d -> d redder :: d -> d greener :: d -> d yellower :: d -> d bluer :: d -> d magentaer :: d -> d cyaner :: d -> d whiter :: d -> d -- Background colors -- Dull onBlack :: d -> d onRed :: d -> d onGreen :: d -> d onYellow :: d -> d onBlue :: d -> d onMagenta :: d -> d onCyan :: d -> d onWhite :: d -> d -- Vivid onBlacker :: d -> d onRedder :: d -> d onGreener :: d -> d onYellower :: d -> d onBluer :: d -> d onMagentaer :: d -> d onCyaner :: d -> d onWhiter :: d -> d default reverse :: Doc_Color (ReprOf d) => Trans d => d -> d default black :: Doc_Color (ReprOf d) => Trans d => d -> d default red :: Doc_Color (ReprOf d) => Trans d => d -> d default green :: Doc_Color (ReprOf d) => Trans d => d -> d default yellow :: Doc_Color (ReprOf d) => Trans d => d -> d default blue :: Doc_Color (ReprOf d) => Trans d => d -> d default magenta :: Doc_Color (ReprOf d) => Trans d => d -> d default cyan :: Doc_Color (ReprOf d) => Trans d => d -> d default white :: Doc_Color (ReprOf d) => Trans d => d -> d default blacker :: Doc_Color (ReprOf d) => Trans d => d -> d default redder :: Doc_Color (ReprOf d) => Trans d => d -> d default greener :: Doc_Color (ReprOf d) => Trans d => d -> d default yellower :: Doc_Color (ReprOf d) => Trans d => d -> d default bluer :: Doc_Color (ReprOf d) => Trans d => d -> d default magentaer :: Doc_Color (ReprOf d) => Trans d => d -> d default cyaner :: Doc_Color (ReprOf d) => Trans d => d -> d default whiter :: Doc_Color (ReprOf d) => Trans d => d -> d default onBlack :: Doc_Color (ReprOf d) => Trans d => d -> d default onRed :: Doc_Color (ReprOf d) => Trans d => d -> d default onGreen :: Doc_Color (ReprOf d) => Trans d => d -> d default onYellow :: Doc_Color (ReprOf d) => Trans d => d -> d default onBlue :: Doc_Color (ReprOf d) => Trans d => d -> d default onMagenta :: Doc_Color (ReprOf d) => Trans d => d -> d default onCyan :: Doc_Color (ReprOf d) => Trans d => d -> d default onWhite :: Doc_Color (ReprOf d) => Trans d => d -> d default onBlacker :: Doc_Color (ReprOf d) => Trans d => d -> d default onRedder :: Doc_Color (ReprOf d) => Trans d => d -> d default onGreener :: Doc_Color (ReprOf d) => Trans d => d -> d default onYellower :: Doc_Color (ReprOf d) => Trans d => d -> d default onBluer :: Doc_Color (ReprOf d) => Trans d => d -> d default onMagentaer :: Doc_Color (ReprOf d) => Trans d => d -> d default onCyaner :: Doc_Color (ReprOf d) => Trans d => d -> d default onWhiter :: Doc_Color (ReprOf d) => Trans d => d -> d reverse = trans1 reverse black = trans1 black red = trans1 red green = trans1 green yellow = trans1 yellow blue = trans1 blue magenta = trans1 magenta cyan = trans1 cyan white = trans1 white blacker = trans1 blacker redder = trans1 redder greener = trans1 greener yellower = trans1 yellower bluer = trans1 bluer magentaer = trans1 magentaer cyaner = trans1 cyaner whiter = trans1 whiter onBlack = trans1 onBlack onRed = trans1 onRed onGreen = trans1 onGreen onYellow = trans1 onYellow onBlue = trans1 onBlue onMagenta = trans1 onMagenta onCyan = trans1 onCyan onWhite = trans1 onWhite onBlacker = trans1 onBlacker onRedder = trans1 onRedder onGreener = trans1 onGreener onYellower = trans1 onYellower onBluer = trans1 onBluer onMagentaer = trans1 onMagentaer onCyaner = trans1 onCyaner onWhiter = trans1 onWhiter -- * Class 'Doc_Decoration' class Doc_Decoration d where bold :: d -> d underline :: d -> d italic :: d -> d default bold :: Doc_Decoration (ReprOf d) => Trans d => d -> d default underline :: Doc_Decoration (ReprOf d) => Trans d => d -> d default italic :: Doc_Decoration (ReprOf d) => Trans d => d -> d bold = trans1 bold underline = trans1 underline italic = trans1 italic -- * Class 'Trans' class Trans tr where -- | Return the underlying @tr@ of the transformer. type ReprOf tr :: * -- | Lift a tr to the transformer's. trans :: ReprOf tr -> tr -- | Unlift a tr from the transformer's. unTrans :: tr -> ReprOf tr -- | Identity transformation for a unary symantic method. trans1 :: (ReprOf tr -> ReprOf tr) -> (tr -> tr) trans1 f = trans . f . unTrans -- | Identity transformation for a binary symantic method. trans2 :: (ReprOf tr -> ReprOf tr -> ReprOf tr) -> (tr -> tr -> tr) trans2 f t1 t2 = trans (f (unTrans t1) (unTrans t2)) -- | Identity transformation for a ternary symantic method. trans3 :: (ReprOf tr -> ReprOf tr -> ReprOf tr -> ReprOf tr) -> (tr -> tr -> tr -> tr) trans3 f t1 t2 t3 = trans (f (unTrans t1) (unTrans t2) (unTrans t3)) int64OfInt :: Int -> Int64 int64OfInt = fromIntegral intOfInt64 :: Int64 -> Int intOfInt64 = fromIntegral