-- File generated by the BNF Converter. -- -*- haskell -*- -- Lexer definition for use with Alex 3. { {-# OPTIONS -fno-warn-incomplete-patterns #-} {-# OPTIONS_GHC -w #-} {-# LANGUAGE PatternSynonyms #-} module LexCubicaltt where import Prelude import qualified Data.Bits import Data.Char (ord) import Data.Function (on) import Data.Maybe (fromMaybe) import qualified Data.Map as Map import Data.Map (Map) import Data.Word (Word8) } -- Predefined character classes $c = [A-Z\192-\221] # [\215] -- capital isolatin1 letter (215 = \times) $s = [a-z\222-\255] # [\247] -- small isolatin1 letter (247 = \div ) $l = [$c $s] -- letter $d = [0-9] -- digit $i = [$l $d _ '] -- identifier character $u = [. \n] -- universal: any character -- Symbols and non-identifier-like reserved words @rsyms = \( | \) | \* | \, | \- | \- \> | \. "1" | \. "2" | "0" | "1" | \: | \; | \< | \= | \> | \@ | \[ | \\ | \\ \/ | \] | "split" \@ | \{ | \| | \} :- -- Line comment "--" "--" [.]* ; -- Block comment "{-" "-}" \{ \- [ $u # \- ]* \- ([ $u # [ \} \- ] ] [ $u # \- ]* \- | \-)* \}; -- Whitespace (skipped) $white+ ; -- Symbols @rsyms { tok (eitherResIdent TV) } -- token AIdent \_ | [ $s $c ] [ $s $c $d \' \_ ]* | \! $d* { tok (eitherResIdent T_AIdent) } -- token CIdent \/ \\ { tok (eitherResIdent T_CIdent) } -- token HoleIdent \? { tok (eitherResIdent T_HoleIdent) } -- Keywords and Ident $l $i* { tok (eitherResIdent TV) } { -- | Create a token with position. tok :: (String -> Tok) -> (Posn -> String -> Token) tok f p = PT p . f -- | Token without position. data Tok = TK {-# UNPACK #-} !TokSymbol -- ^ Reserved word or symbol. | TL !String -- ^ String literal. | TI !String -- ^ Integer literal. | TV !String -- ^ Identifier. | TD !String -- ^ Float literal. | TC !String -- ^ Character literal. | T_AIdent !String | T_CIdent !String | T_HoleIdent !String deriving (Eq, Show, Ord) -- | Smart constructor for 'Tok' for the sake of backwards compatibility. pattern TS :: String -> Int -> Tok pattern TS t i = TK (TokSymbol t i) -- | Keyword or symbol tokens have a unique ID. data TokSymbol = TokSymbol { tsText :: String -- ^ Keyword or symbol text. , tsID :: !Int -- ^ Unique ID. } deriving (Show) -- | Keyword/symbol equality is determined by the unique ID. instance Eq TokSymbol where (==) = (==) `on` tsID -- | Keyword/symbol ordering is determined by the unique ID. instance Ord TokSymbol where compare = compare `on` tsID -- | Token with position. data Token = PT Posn Tok | Err Posn deriving (Eq, Show, Ord) -- | Pretty print a position. printPosn :: Posn -> String printPosn (Pn _ l c) = "line " ++ show l ++ ", column " ++ show c -- | Pretty print the position of the first token in the list. tokenPos :: [Token] -> String tokenPos (t:_) = printPosn (tokenPosn t) tokenPos [] = "end of file" -- | Get the position of a token. tokenPosn :: Token -> Posn tokenPosn (PT p _) = p tokenPosn (Err p) = p -- | Get line and column of a token. tokenLineCol :: Token -> (Int, Int) tokenLineCol = posLineCol . tokenPosn -- | Get line and column of a position. posLineCol :: Posn -> (Int, Int) posLineCol (Pn _ l c) = (l,c) -- | Convert a token into "position token" form. mkPosToken :: Token -> ((Int, Int), String) mkPosToken t = (tokenLineCol t, tokenText t) -- | Convert a token to its text. tokenText :: Token -> String tokenText t = case t of PT _ (TS s _) -> s PT _ (TL s) -> show s PT _ (TI s) -> s PT _ (TV s) -> s PT _ (TD s) -> s PT _ (TC s) -> s Err _ -> "#error" PT _ (T_AIdent s) -> s PT _ (T_CIdent s) -> s PT _ (T_HoleIdent s) -> s -- | Convert a token to a string. prToken :: Token -> String prToken t = tokenText t -- | Convert potential keyword into token or use fallback conversion. eitherResIdent :: (String -> Tok) -> String -> Tok eitherResIdent tv s = fromMaybe (tv s) (Map.lookup s resWords) -- | The keywords and symbols of the language organized as a Map. resWords :: Map String Tok resWords = Map.fromAscList [ ("(", TS "(" 1) , (")", TS ")" 2) , ("*", TS "*" 3) , (",", TS "," 4) , ("-", TS "-" 5) , ("->", TS "->" 6) , (".1", TS ".1" 7) , (".2", TS ".2" 8) , ("0", TS "0" 9) , ("1", TS "1" 10) , (":", TS ":" 11) , (";", TS ";" 12) , ("<", TS "<" 13) , ("=", TS "=" 14) , (">", TS ">" 15) , ("@", TS "@" 16) , ("Glue", TS "Glue" 17) , ("Id", TS "Id" 18) , ("PathP", TS "PathP" 19) , ("U", TS "U" 20) , ("[", TS "[" 21) , ("\\", TS "\\" 22) , ("\\/", TS "\\/" 23) , ("]", TS "]" 24) , ("comp", TS "comp" 25) , ("data", TS "data" 26) , ("fill", TS "fill" 27) , ("glue", TS "glue" 28) , ("hComp", TS "hComp" 29) , ("hdata", TS "hdata" 30) , ("idC", TS "idC" 31) , ("idJ", TS "idJ" 32) , ("import", TS "import" 33) , ("in", TS "in" 34) , ("let", TS "let" 35) , ("module", TS "module" 36) , ("mutual", TS "mutual" 37) , ("opaque", TS "opaque" 38) , ("split", TS "split" 39) , ("split@", TS "split@" 40) , ("transparent", TS "transparent" 41) , ("transparent_all", TS "transparent_all" 42) , ("transport", TS "transport" 43) , ("undefined", TS "undefined" 44) , ("unglue", TS "unglue" 45) , ("where", TS "where" 46) , ("with", TS "with" 47) , ("{", TS "{" 48) , ("|", TS "|" 49) , ("}", TS "}" 50) ] -- | Unquote string literal. unescapeInitTail :: String -> String unescapeInitTail = id . unesc . tail . id where unesc s = case s of '\\':c:cs | elem c ['\"', '\\', '\''] -> c : unesc cs '\\':'n':cs -> '\n' : unesc cs '\\':'t':cs -> '\t' : unesc cs '\\':'r':cs -> '\r' : unesc cs '\\':'f':cs -> '\f' : unesc cs '"':[] -> [] c:cs -> c : unesc cs _ -> [] ------------------------------------------------------------------- -- Alex wrapper code. -- A modified "posn" wrapper. ------------------------------------------------------------------- data Posn = Pn !Int !Int !Int deriving (Eq, Show, Ord) alexStartPos :: Posn alexStartPos = Pn 0 1 1 alexMove :: Posn -> Char -> Posn alexMove (Pn a l c) '\t' = Pn (a+1) l (((c+7) `div` 8)*8+1) alexMove (Pn a l c) '\n' = Pn (a+1) (l+1) 1 alexMove (Pn a l c) _ = Pn (a+1) l (c+1) type Byte = Word8 type AlexInput = ( Posn -- current position , Char -- previous char , [Byte] -- pending bytes on the current char , String ) -- current input string tokens :: String -> [Token] tokens str = go (alexStartPos, '\n', [], str) where go :: AlexInput -> [Token] go inp@(pos, _, _, str) = case alexScan inp 0 of AlexEOF -> [] AlexError (pos, _, _, _) -> [Err pos] AlexSkip inp' len -> go inp' AlexToken inp' len act -> act pos ( take len str) : (go inp') alexGetByte :: AlexInput -> Maybe (Byte,AlexInput) alexGetByte (p, c, (b:bs), s) = Just (b, (p, c, bs, s)) alexGetByte (p, _, [], s) = case s of [] -> Nothing (c:s) -> let p' = alexMove p c (b:bs) = utf8Encode c in p' `seq` Just (b, (p', c, bs, s)) alexInputPrevChar :: AlexInput -> Char alexInputPrevChar (p, c, bs, s) = c -- | Encode a Haskell String to a list of Word8 values, in UTF8 format. utf8Encode :: Char -> [Word8] utf8Encode = map fromIntegral . go . ord where go oc | oc <= 0x7f = [oc] | oc <= 0x7ff = [ 0xc0 + (oc `Data.Bits.shiftR` 6) , 0x80 + oc Data.Bits..&. 0x3f ] | oc <= 0xffff = [ 0xe0 + (oc `Data.Bits.shiftR` 12) , 0x80 + ((oc `Data.Bits.shiftR` 6) Data.Bits..&. 0x3f) , 0x80 + oc Data.Bits..&. 0x3f ] | otherwise = [ 0xf0 + (oc `Data.Bits.shiftR` 18) , 0x80 + ((oc `Data.Bits.shiftR` 12) Data.Bits..&. 0x3f) , 0x80 + ((oc `Data.Bits.shiftR` 6) Data.Bits..&. 0x3f) , 0x80 + oc Data.Bits..&. 0x3f ] }