1 {-# LANGUAGE DeriveLift #-}
2 {-# LANGUAGE FlexibleContexts #-}
3 {-# LANGUAGE NoMonomorphismRestriction #-}
4 {-# LANGUAGE Rank2Types #-}
5 {-# LANGUAGE ScopedTypeVariables #-}
6 {-# LANGUAGE StandaloneDeriving #-}
7 {-# LANGUAGE TemplateHaskell #-}
8 {-# LANGUAGE UnboxedTuples #-}
9 module Parsers.Nandlang where
12 import Data.Char (isSpace, isAlpha, isAlphaNum)
13 import Data.Char (Char)
14 import Data.Eq (Eq(..))
15 import Data.Ord (Ord(..))
16 import Data.String (String)
17 import qualified Data.Set as Set
18 import qualified Data.Text as Text
20 import qualified Symantic.Parser as P
21 import qualified Symantic.Lang as Prod
23 type Parser a = P.Parser Text.Text a
25 nandIdentStart :: Char -> Bool
26 nandIdentStart c = isAlpha c || c == '_'
28 nandIdentLetter :: Char -> Bool
29 nandIdentLetter c = isAlphaNum c || c == '_'
31 nandUnreservedName :: String -> Bool
32 nandUnreservedName = \s -> not (Set.member s keys)
34 keys = Set.fromList ["if", "else", "while", "function", "var"]
36 nandStringLetter :: Char -> Bool
37 nandStringLetter c = (c /= '"') && (c /= '\\') && (c > '\026')
39 grammar :: forall repr.
40 P.Grammarable Char repr =>
42 grammar = whitespace P.*> P.skipMany funcdef P.<* P.eof
45 literal = bit P.<|> charLit
47 bit = (P.char '0' P.<|> P.char '1') P.*> whitespace
49 charLit = P.between (P.char '\'') (symbol '\'') charChar
51 charChar = P.void (P.satisfy
52 (P.production nandStringLetter [||nandStringLetter||])) P.<|> esc
54 esc = P.char '\\' P.*> P.void (P.oneOf "0tnvfr")
56 expr = nandexpr P.*> P.skipMany (symbol '!' P.*> nandexpr)
58 nandexpr = literal P.<|> funccallOrVar
59 funccallOrVar :: repr ()
60 funccallOrVar = identifier P.*> P.optional (parens exprlist P.<|> index)
62 identifier = P.try (identStart P.*> P.skipMany identLetter) P.*> whitespace
63 identStart = P.satisfy
64 (P.production nandIdentStart [||nandIdentStart||])
66 exprlist = commaSep expr
67 exprlist1 = commaSep1 expr
68 varlist = commaSep variable
69 varlist1 = commaSep1 variable
71 variable = identifier P.*> P.optional index
77 decimal = number (P.oneOf ['0'..'9'])
78 number :: repr a -> repr ()
79 number digit = P.skipSome digit
81 funcdef = keyword "function" P.*> identifier P.*> parens funcparam P.*> block
82 funcparam = varlist P.*> P.optional (symbol ':' P.*> varlist)
83 block = braces (P.skipMany statement)
85 ifstmt P.<|> whilestmt P.<|> P.try varstmt P.<|> expr P.<* semi
87 ifstmt = keyword "if" -- P.*> expr P.*> block P.*> P.optional (keyword "else" P.*> block)
88 whilestmt = keyword "while" P.*> expr P.*> block
89 varstmt = P.optional (keyword "var") P.*> varlist1 P.*> symbol '=' P.*> exprlist1 P.<* semi
90 keyword :: String -> repr ()
91 keyword k = P.string k P.*> P.pure Prod.unit
93 keyword s = P.try (P.string s P.*> notIdentLetter) P.*> whitespace
94 notIdentLetter = P.negLook identLetter
96 identLetter = P.satisfy
97 (P.production nandIdentLetter [||nandIdentLetter||])
99 -- hexadecimal = P.oneOf "xX" P.*> number (P.oneOf (['a'..'f'] <> ['A'..'F'] <> ['0'..'9']))
100 -- octal = P.oneOf "oO" P.*> number (P.oneOf ['0'..'7'])
102 symbol :: Char -> repr Char
103 symbol c = P.char c P.<* whitespace
104 parens :: repr a -> repr a
105 parens = P.between (symbol '(') (symbol ')')
106 brackets :: repr a -> repr a
107 brackets = P.between (symbol '[') (symbol ']')
108 braces :: repr a -> repr a
109 braces = P.between (symbol '{') (symbol '}')
114 commaSep :: repr a -> repr ()
115 commaSep p = P.optional (commaSep1 p)
116 commaSep1 :: repr a -> repr ()
117 commaSep1 p = p P.*> P.skipMany (comma P.*> p)
120 space = P.void (P.satisfy (P.production isSpace [||isSpace||]))
121 whitespace :: repr ()
124 whitespace = P.skipMany (spaces P.<|> oneLineComment)
125 oneLineComment :: repr ()
126 oneLineComment = P.void (P.string "//" P.*> P.skipMany (P.satisfy
127 (P.production (/= '\n') [||(/= '\n')||])))
130 spaces = P.skipSome space
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