]> Git — Sourcephile - doclang.git/blob - Language/TCT/Write/Text.hs
Fix DTC attributes writing.
[doclang.git] / Language / TCT / Write / Text.hs
1 {-# LANGUAGE OverloadedStrings #-}
2 {-# LANGUAGE RecordWildCards #-}
3 {-# LANGUAGE ViewPatterns #-}
4 {-# OPTIONS_GHC -fno-warn-orphans #-}
5 -- | Render a TCT file in plain Text.
6 module Language.TCT.Write.Text where
7
8 import Control.Monad (Monad(..), mapM)
9 import Data.Bool
10 import Data.Eq (Eq(..))
11 import Data.Foldable (Foldable(..))
12 import Data.Function (($), (.))
13 import Data.Functor ((<$>))
14 import Data.Int (Int)
15 import Data.Int (Int64)
16 import Data.Monoid (Monoid(..))
17 import Data.Ord (Ord(..))
18 import Data.Semigroup (Semigroup(..))
19 import Data.Sequence (ViewL(..))
20 import Data.String (String)
21 import Data.Text (Text)
22 import Prelude (Num(..), undefined, Integral(..))
23 import Text.Show (Show(..))
24 import qualified Control.Monad.Trans.State as S
25 import qualified Data.List as L
26 import qualified Data.Sequence as Seq
27 import qualified Data.Text as Text
28 import qualified Data.Text.Lazy as TL
29
30 import Language.TCT.Tree
31 import Language.TCT.Token
32 import Language.TCT.Elem hiding (trac,dbg)
33
34 import Debug.Trace (trace)
35 trac :: String -> a -> a
36 -- trac _m x = x
37 trac m x = trace m x
38 dbg :: Show a => String -> a -> a
39 dbg m x = trac (m <> ": " <> show x) x
40
41 tl :: Text -> TL.Text
42 tl = TL.fromStrict
43
44 -- * Type 'Config_Text'
45 data Config_Text
46 = Config_Text
47 { config_text_escape :: Bool
48 } deriving (Eq, Show)
49
50 config_text :: Config_Text
51 config_text =
52 Config_Text
53 { config_text_escape = True
54 }
55
56 text :: Config_Text -> Trees (Cell Key) (Cell Token) -> TL.Text
57 text cfg tct = foldMap (t_TreeCell cfg) (treePosLastCell tct)
58
59 treeRackUpLeft :: Tree (Cell k) (Cell a) -> Tree (Cell k) (Cell a)
60 treeRackUpLeft t = go t
61 where
62 (l0,c0) = posTree t
63 rackUpLeft pos = (linePos pos - l0 + 1, columnPos pos - c0 + 1)
64 go :: Tree (Cell k) (Cell a) -> Tree (Cell k) (Cell a)
65 go (Tree0 (Cell pos posEnd c)) =
66 Tree0 $ Cell (rackUpLeft pos) (rackUpLeft posEnd) c
67 go (TreeN (Cell pos posEnd c) ts) =
68 TreeN
69 (Cell (rackUpLeft pos) (rackUpLeft posEnd) c)
70 (go <$> ts)
71
72 treePosLastCell :: Trees (Cell k) (Cell a) -> Trees (Pos,Cell k) (Pos,Cell a)
73 treePosLastCell t = S.evalState (go`mapM`t) (1,1)
74 where
75 go :: Tree (Cell k) (Cell a) ->
76 S.State (Int, Int) (Tree (Pos, Cell k) (Pos, Cell a))
77 go (Tree0 cell) = do
78 lastPos <- S.get
79 S.put $ posEndCell cell
80 return $ Tree0 (lastPos,cell)
81 go (TreeN cell ts) = do
82 lastPos <- S.get
83 S.put $ posEndCell cell
84 ts' <- go`mapM`ts
85 return $ TreeN (lastPos,cell) ts'
86
87 t_Value :: Text -> TL.Text
88 t_Value v = tl v
89
90 int64 :: Integral i => i -> Int64
91 int64 = fromInteger . toInteger
92
93 t_TreeCell :: Config_Text -> Tree (Pos,Cell Key) (Pos,Cell Token) -> TL.Text
94 t_TreeCell cfg (TreeN c@(_, unCell -> KeySection lvl) ts) =
95 t_IndentCell c <>
96 TL.replicate (int64 lvl) "#" <> " " <>
97 (case Seq.viewl ts of
98 Tree0 (_,Cell posTitle _ title) :< _ -> t_IndentToken cfg posTitle title
99 _ -> "") <>
100 foldMap (t_TreeCell cfg) (case Seq.viewl ts of {Tree0{} :< ts' -> ts'; _ -> ts})
101 t_TreeCell cfg (Tree0 c@(_,cell)) =
102 t_IndentCell c <>
103 t_CellToken cfg cell
104 t_TreeCell cfg (TreeN c@(_,cell) cs) =
105 t_IndentCell c <>
106 t_CellKey cfg cell cs
107
108 t_IndentCell :: (Pos,Cell a) -> TL.Text
109 t_IndentCell ((lineLast,colLast),posCell -> (line,col))
110 | lineLast < line =
111 TL.replicate (int64 $ line - (lineLast+1)) "\n" <>
112 TL.replicate (int64 $ col - 1) " "
113 | lineLast == line
114 && colLast <= col = TL.replicate (int64 $ col - colLast) " "
115 | otherwise = undefined
116
117 t_CellKey :: Config_Text -> Cell Key -> Trees (Pos,Cell Key) (Pos,Cell Token) -> TL.Text
118 t_CellKey cfg (Cell _pos _posEnd key) cells = do
119 case key of
120 KeyColon n wh -> t_Key n wh ":"
121 KeyGreat n wh -> t_Key n wh ">"
122 KeyEqual n wh -> t_Key n wh "="
123 KeyBar n wh -> t_Key n wh "|"
124 KeyDash -> "- " <> foldMap (t_TreeCell cfg) cells
125 KeyLower name attrs ->
126 "<" <> tl name <> t_Attrs attrs <>
127 foldMap (t_TreeCell cfg) cells
128 KeySection{} -> undefined
129 where
130 t_Key :: Text -> White -> TL.Text -> TL.Text
131 t_Key name wh mark = tl name <> tl wh <> mark <> foldMap (t_TreeCell cfg) cells
132
133 t_CellToken :: Config_Text -> Cell Token -> TL.Text
134 t_CellToken cfg (Cell pos _posEnd tok) =
135 t_IndentToken cfg pos tok
136
137 t_IndentToken :: Config_Text -> Pos -> Token -> TL.Text
138 t_IndentToken cfg pos tok = go tok `S.evalState` linePos pos
139 where
140 indent = TL.replicate (int64 $ columnPos pos - 1) " "
141 go :: Token -> S.State Int TL.Text
142 go (TokenPlain txt) = do
143 lnum <- S.get
144 let lines = Text.splitOn "\n" txt
145 S.put (lnum - 1 + L.length lines)
146 return $
147 case lines of
148 [] -> undefined
149 (l0:ls) -> tl l0 <> mconcat ((\l -> "\n"<>indent<>tl l)<$>ls)
150 go (TokenTag v) = return $ "#"<>tl v
151 go (TokenEscape c) =
152 return $
153 if config_text_escape cfg
154 then tl $ Text.pack ['\\',c]
155 else TL.singleton c
156 go (TokenLink lnk) = return $ tl lnk
157 go (TokenPair grp t) = do
158 t' <- go t
159 return $ tl o<>t'<>tl c
160 where (o,c) = pairBorders grp t
161 go (Tokens ts) = do
162 ts' <- go`mapM`ts
163 return $ foldr (<>) mempty ts'
164
165 t_Attrs :: Attrs -> TL.Text
166 t_Attrs = foldMap t_Attr
167
168 t_Attr :: (Text,Attr) -> TL.Text
169 t_Attr (attr_white,Attr{..}) =
170 mconcat $ tl <$>
171 [ attr_white
172 , attr_name
173 , attr_open
174 , attr_value
175 , attr_close
176 ]
177
178
179 t_Token :: Token -> TL.Text
180 t_Token (TokenPlain txt) = tl txt
181 t_Token (TokenTag v) = "#"<>tl v
182 t_Token (TokenEscape c) = TL.singleton c -- tl $ Text.pack ['\\',c]
183 t_Token (TokenLink lnk) = tl lnk
184 t_Token (TokenPair grp t) = tl o<>t_Token t<>tl c
185 where (o,c) = pairBorders grp t
186 t_Token (Tokens ts) = foldMap t_Token ts