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{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}
module Blessings
( module Export
, module Blessings
) where
import Blessings.Internal as Export (Blessable)
import qualified Blessings.Internal as Bless
import Control.Applicative
import Data.Ix (inRange)
import Data.List (genericDrop)
import Data.String
import Data.Word (Word8)
import qualified Prelude
import Prelude hiding (drop, length, take)
type Ps = Word8
type Pm = [Ps]
data Blessings a
= Plain a
| SGR Pm (Blessings a)
| Append (Blessings a) (Blessings a)
| Empty
deriving (Eq, Show)
instance Foldable Blessings where
foldMap f = \case
Append t1 t2 -> foldMap f t1 <> foldMap f t2
Plain s -> f s
SGR _ t -> foldMap f t
Empty -> mempty
instance Functor Blessings where
fmap f = \case
Append t1 t2 -> Append (fmap f t1) (fmap f t2)
Plain s -> Plain (f s)
SGR pm t -> SGR pm (fmap f t)
Empty -> Empty
instance Semigroup (Blessings a) where
t <> Empty = t
Empty <> t = t
Append t1 t2 <> Append t3 t4 = t1 <> t2 <> t3 <> t4
Append t1 t2 <> t3 = t1 <> t2 <> t3
t1 <> t2 = Append t1 t2
instance Monoid (Blessings a) where
mempty = Empty
instance IsString a => IsString (Blessings a) where
fromString = Plain . fromString
class IsPm a where
toPm :: a -> Pm
fromPm :: Pm -> Maybe a
data FColor = ECMA48FColor Ps -- ECMA-48 / ISO 6429 / ANSI X3.64
| Xterm256FColor Ps
| ISO8613_3FColor Ps Ps Ps
deriving (Eq, Show)
instance IsPm FColor where
toPm (ECMA48FColor i) = [i]
toPm (Xterm256FColor i) = [38,5,i]
toPm (ISO8613_3FColor r g b) = [38,2,r,g,b]
fromPm = fromSGRPm SGRPm
{ def8Ps = 39
, extPs = 38
, lo8Ps = 30
, hi8Ps = 37
, makeECMA48Color = ECMA48FColor
, makeXterm256Color = Xterm256FColor
, makeISO8613_3Color = ISO8613_3FColor
}
. filterPm sgrBColor
data BColor = ECMA48BColor Ps
| Xterm256BColor Ps
| ISO8613_3BColor Ps Ps Ps
deriving (Eq, Show)
instance IsPm BColor where
toPm (ECMA48BColor i) = [i]
toPm (Xterm256BColor i) = [48,5,i]
toPm (ISO8613_3BColor r g b) = [48,2,r,g,b]
fromPm = fromSGRPm SGRPm
{ def8Ps = 49
, extPs = 48
, lo8Ps = 40
, hi8Ps = 47
, makeECMA48Color = ECMA48BColor
, makeXterm256Color = Xterm256BColor
, makeISO8613_3Color = ISO8613_3BColor
}
. filterPm sgrFColor
data Blink = Blink | NoBlink
deriving (Eq, Show)
instance IsPm Blink where
toPm Blink = [5]
toPm NoBlink = [25]
fromPm = rec . filterPm sgrColor
where
rec xs = case filter (`elem` ([5,25] :: [Word8])) xs of
[] -> Nothing
xs' -> case last xs' of
5 -> Just Blink
25 -> Just NoBlink
_ -> error "filter broken in fromPm :: Pm -> Maybe Blink"
data Bold = Bold | NoBold
deriving (Eq, Show)
instance IsPm Bold where
toPm Bold = [1]
toPm NoBold = [22]
fromPm = rec . filterPm sgrColor
where
rec xs = case filter (`elem` ([1,22] :: [Word8])) xs of
[] -> Nothing
xs' -> case last xs' of
1 -> Just Bold
22 -> Just NoBold
_ -> error "filter broken in fromPm :: Pm -> Maybe Bold"
data Underline = Underline | NoUnderline
deriving (Eq, Show)
instance IsPm Underline where
toPm Underline = [4]
toPm NoUnderline = [24]
fromPm = rec . filterPm sgrColor
where
rec xs = case filter (`elem` ([4,24] :: [Word8])) xs of
[] -> Nothing
xs' -> case last xs' of
1 -> Just Underline
22 -> Just NoUnderline
_ -> error "filter broken in fromPm :: Pm -> Maybe Underline"
data SGRPm c = SGRPm
{ def8Ps :: Ps
, extPs :: Ps
, lo8Ps :: Ps
, hi8Ps :: Ps
, makeECMA48Color :: Ps -> c
, makeXterm256Color :: Ps -> c
, makeISO8613_3Color :: Ps -> Ps -> Ps -> c
}
fromSGRPm :: IsPm c => SGRPm c -> Pm -> Maybe c
fromSGRPm SGRPm{..} = rec Nothing
where
rec mb_c (x:xs)
| x == extPs = case xs of
(2:r:g:b:xs') -> rec (Just $ makeISO8613_3Color r g b) xs'
(5:i:xs') -> rec (Just $ makeXterm256Color i) xs'
_ -> rec mb_c xs
| x == def8Ps = rec (Just $ makeECMA48Color def8Ps) xs
| inRange (lo8Ps, hi8Ps) x = rec (Just $ makeECMA48Color x) xs
| otherwise = rec mb_c xs
rec mb_c _ = mb_c
-- filterPm is used to preprocess Pm before searching with fromPm in
-- order to remove (longer) sequences that could contain subsequences
-- that look like the (shorter) sequences we're searching.
-- E.g. we could find [1] (bold) in any extended color sequence.
-- TODO Can we combine this whole from*Pm with Scanner?
filterPm :: (Pm -> Maybe Word8) -> Pm -> Pm
filterPm f = rec []
where
rec ys xs@(xhead:xtail) = maybe (rec (ys ++ [xhead]) xtail)
(rec ys . flip genericDrop xs)
(f xs)
rec ys _ = ys
sgrColor, sgrFColor, sgrBColor :: Pm -> Maybe Word8
sgrColor xs = sgrFColor xs <|> sgrBColor xs
sgrFColor (38:5:_) = Just 3
sgrFColor (38:2:_) = Just 5
sgrFColor _ = Nothing
sgrBColor (48:5:_) = Just 3
sgrBColor (48:2:_) = Just 5
sgrBColor _ = Nothing
type RenderState = [(FColor, BColor, Blink, Bold, Underline)]
emptyRenderState :: RenderState
emptyRenderState = [(ECMA48FColor 39, ECMA48BColor 49, NoBlink, NoBold, NoUnderline)]
render :: (Blessable a) => RenderState -> Blessings a -> a -> a
render _ (Plain s) y = s <> y
-- TODO merge successive sequences: \ESC[32m\ESC[1m -> \ESC[31;1m
render rs@((fc, bc, bl, b, u):_) (SGR c t) y =
renderSGR bra <> render rs' t (renderSGR ket <> y)
where
fc' = maybe fc id $ fromPm c
bc' = maybe bc id $ fromPm c
bl' = maybe bl id $ fromPm c
b' = maybe b id $ fromPm c
u' = maybe u id $ fromPm c
rs' = (fc', bc', bl', b', u') : rs
bra = braket >>= fst
ket = braket >>= snd
braket =
(if fc' /= fc then (toPm fc', toPm fc) else ([],[])) :
(if bc' /= bc then (toPm bc', toPm bc) else ([],[])) :
(if bl' /= bl then (toPm bl', toPm bl) else ([],[])) :
(if b' /= b then (toPm b', toPm b) else ([],[])) :
(if u' /= u then (toPm u', toPm u) else ([],[])) : []
render _ (SGR _ _) _ =
error "render called w/o proper initial state"
-- where a proper initial state is s.th. like emptyRenderState
render r (Append t1 t2) y =
render r t1 $ render r t2 y
render _ Empty y = y
renderSGR :: (Blessable a) => Pm -> a
renderSGR [] = mempty
renderSGR pm =
("\ESC["<>) . (<>"m") . Bless.intercalate ";" . map Bless.fromWord8 $ pm
stripSGR :: Blessings a -> Blessings a
stripSGR = \case
Append t1 t2 -> Append (stripSGR t1) (stripSGR t2)
SGR _ t -> stripSGR t
Plain x -> Plain x
Empty -> Empty
pp :: (Blessable a) => Blessings a -> a
pp t = render emptyRenderState t ""
instance Blessable a => Blessable (Blessings a) where
length (Plain x) = Bless.length x
length (SGR _ t) = Bless.length t
length (Append t1 t2) = Bless.length t1 + Bless.length t2
length Empty = 0
drop n = \case
Append t1 t2 ->
case compare n (Bless.length t1) of
LT -> Bless.drop n t1 <> t2
EQ -> t2
GT -> Bless.drop (n - Bless.length t1) t2
Plain s ->
Plain (Bless.drop n s)
SGR pm t ->
SGR pm (Bless.drop n t)
Empty ->
Empty
take n = \case
Append t1 t2 ->
case compare n (Bless.length t1) of
LT -> Bless.take n t1
EQ -> t1
GT -> t1 <> Bless.take (n - Bless.length t1) t2
Plain s ->
Plain (Bless.take n s)
SGR pm t ->
SGR pm (Bless.take n t)
Empty ->
Empty
intercalate i = \case
[] -> mempty
[t] -> t
(t:ts) -> t <> i <> Bless.intercalate i ts
fromWord8 = Plain . Bless.fromWord8
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