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1 {-# LANGUAGE ConstraintKinds #-}
2 {-# LANGUAGE GeneralizedNewtypeDeriving #-}
3 {-# LANGUAGE FlexibleContexts #-}
4 {-# LANGUAGE Rank2Types #-}
5 {-# LANGUAGE TypeFamilies #-}
6 module Language.TCT.Read.Cell where
7
8 import Control.Applicative (Applicative(..))
9 import Data.Char (Char)
10 import Data.Either (Either(..))
11 import Data.Eq (Eq)
12 import Data.Function (($), (.))
13 import Data.Functor ((<$>))
14 import Data.List.NonEmpty (NonEmpty(..))
15 import Data.Maybe (Maybe(..))
16 import Data.Ord (Ord)
17 import Data.Proxy (Proxy(..))
18 import Data.Semigroup (Semigroup(..))
19 import Data.String (IsString)
20 import Data.Tuple (snd)
21 import System.FilePath (FilePath)
22 import qualified Data.Set as Set
23 import qualified Data.Text.Lazy as TL
24 import qualified Text.Megaparsec as P
25
26 import Language.TCT.Cell
27 import Language.TCT.Debug
28
29 -- * Type 'Parser'
30 -- | Convenient alias.
31 type Parser e s a =
32 Parsable e s a =>
33 P.Parsec e s a
34
35 -- ** Type 'Parsable'
36 type Parsable e s a =
37 ( P.Stream s
38 , P.Token s ~ Char
39 , Ord e
40 , IsString (P.Tokens s)
41 , P.ShowErrorComponent e
42 )
43
44 -- | Like 'P.satisfy' but with a predicate returning 'Maybe' instead of 'Bool'.
45 p_satisfyMaybe :: P.MonadParsec e s m => (P.Token s -> Maybe a) -> m a
46 p_satisfyMaybe f = check `P.token` Nothing
47 where
48 check c =
49 case f c of
50 Just a -> Right a
51 Nothing -> Left (Just $ P.Tokens $ c:|[], Set.empty)
52
53 p_Position :: Parser e s Pos
54 p_Position = (<$> P.getPosition) $ \p ->
55 Pos
56 { pos_line = P.unPos $ P.sourceLine p
57 , pos_column = P.unPos $ P.sourceColumn p
58 }
59
60 p_Cell :: Parser e s a -> Parser e s (Cell a)
61 p_Cell pa =
62 (\b a e -> Cell b e a)
63 <$> p_Position
64 <*> pa
65 <*> p_Position
66
67 p_LineNum :: Parser e s LineNum
68 p_LineNum = P.unPos . P.sourceLine <$> P.getPosition
69
70 p_ColNum :: Parser e s ColNum
71 p_ColNum = P.unPos . P.sourceColumn <$> P.getPosition
72
73 -- | Wrapper around |P.runParser'|
74 -- to use given 'Cell' as starting position.
75 runParserOnCell ::
76 Parsable e StreamCell a =>
77 FilePath ->
78 Parser e StreamCell a ->
79 Cell TL.Text ->
80 Either (P.ParseError (P.Token StreamCell) e) a
81 runParserOnCell inp p (Cell bp _ep s) =
82 snd $ P.runParser' (p <* P.eof)
83 P.State
84 { P.stateInput = StreamCell s
85 , P.statePos = pure $ P.SourcePos inp (P.mkPos $ pos_line bp) indent
86 , P.stateTabWidth = indent
87 , P.stateTokensProcessed = 0
88 }
89 where indent = debug0 "runParserOnCell: indent" $ P.mkPos $ pos_column bp
90
91 -- * Type 'StreamCell'
92 -- | Wrap 'TL.Text' to have a 'P.Stream' instance
93 -- whose 'P.advance1' method abuses the tab width state
94 -- to instead pass the line indent.
95 -- This in order to report correct 'P.SourcePos'
96 -- when parsing a 'Cell' containing newlines.
97 newtype StreamCell = StreamCell { unStreamCell :: TL.Text }
98 deriving (IsString,Eq,Ord)
99 instance P.Stream StreamCell where
100 type Token StreamCell = Char
101 type Tokens StreamCell = TL.Text
102 take1_ (StreamCell t) = (StreamCell <$>) <$> P.take1_ t
103 takeN_ n (StreamCell t) = (StreamCell <$>) <$> P.takeN_ n t
104 takeWhile_ f (StreamCell t) = StreamCell <$> P.takeWhile_ f t
105 tokensToChunk _s = P.tokensToChunk (Proxy::Proxy TL.Text)
106 chunkToTokens _s = P.chunkToTokens (Proxy::Proxy TL.Text)
107 chunkLength _s = P.chunkLength (Proxy::Proxy TL.Text)
108 advance1 _s indent (P.SourcePos n line col) c =
109 case c of
110 '\n' -> P.SourcePos n (line <> P.pos1) indent
111 _ -> P.SourcePos n line (col <> P.pos1)
112 advanceN s indent = TL.foldl' (P.advance1 s indent)