#endif
}
-$unispace = \x05
+$unispace = \x05 -- Trick Alex into handling Unicode. See alexGetChar.
$whitechar = [\ \n\r\f\v\xa0 $unispace]
$white_no_nl = $whitechar # \n
$tab = \t
$ascdigit = 0-9
-$unidigit = \x03
+$unidigit = \x03 -- Trick Alex into handling Unicode. See alexGetChar.
$decdigit = $ascdigit -- for now, should really be $digit (ToDo)
$digit = [$ascdigit $unidigit]
$special = [\(\)\,\;\[\]\`\{\}]
$ascsymbol = [\!\#\$\%\&\*\+\.\/\<\=\>\?\@\\\^\|\-\~ \xa1-\xbf \xd7 \xf7]
-$unisymbol = \x04
+$unisymbol = \x04 -- Trick Alex into handling Unicode. See alexGetChar.
$symbol = [$ascsymbol $unisymbol] # [$special \_\:\"\']
-$unilarge = \x01
+$unilarge = \x01 -- Trick Alex into handling Unicode. See alexGetChar.
$asclarge = [A-Z \xc0-\xd6 \xd8-\xde]
$large = [$asclarge $unilarge]
-$unismall = \x02
+$unismall = \x02 -- Trick Alex into handling Unicode. See alexGetChar.
$ascsmall = [a-z \xdf-\xf6 \xf8-\xff]
$small = [$ascsmall $unismall \_]
-$unigraphic = \x06
+$unigraphic = \x06 -- Trick Alex into handling Unicode. See alexGetChar.
$graphic = [$small $large $symbol $digit $special $unigraphic \:\"\']
$octit = 0-7
( "forall", ITforall, bit tvBit),
( "mdo", ITmdo, bit glaExtsBit),
- ( "family", ITfamily, bit idxTysBit),
+ ( "family", ITfamily, bit tyFamBit),
( "foreign", ITforeign, bit ffiBit),
( "export", ITexport, bit ffiBit),
,("!", ITbang, 0)
,("*", ITstar, bit glaExtsBit .|.
- bit idxTysBit) -- For data T (a::*) = MkT
+ bit tyFamBit) -- For data T (a::*) = MkT
,(".", ITdot, bit tvBit) -- For 'forall a . t'
,("-<", ITlarrowtail, bit arrowsBit)
notFollowedBySymbol _ _ _ (AI _ _ buf)
= nextCharIs buf (`notElem` "!#$%&*+./<=>?@\\^|-~")
+-- We must reject doc comments as being ordinary comments everywhere.
+-- In some cases the doc comment will be selected as the lexeme due to
+-- maximal munch, but not always, because the nested comment rule is
+-- valid in all states, but the doc-comment rules are only valid in
+-- the non-layout states.
isNormalComment bits _ _ (AI _ _ buf)
- = nextCharIs buf (/='#')
+ | haddockEnabled bits = notFollowedByDocOrPragma
+ | otherwise = nextCharIs buf (/='#')
+ where
+ notFollowedByDocOrPragma
+ = not $ spaceAndP buf (`nextCharIs` (`elem` "|^*$#"))
+
+spaceAndP buf p = p buf || nextCharIs buf (==' ') && p (snd (nextChar buf))
haddockDisabledAnd p bits _ _ (AI _ _ buf)
= if haddockEnabled bits then False else (p buf)
adj_c
| c <= '\x06' = non_graphic
| c <= '\xff' = c
+ -- Alex doesn't handle Unicode, so when Unicode
+ -- character is encoutered we output these values
+ -- with the actual character value hidden in the state.
| otherwise =
case generalCategory c of
UppercaseLetter -> upper
tvBit = 7 -- Scoped type variables enables 'forall' keyword
bangPatBit = 8 -- Tells the parser to understand bang-patterns
-- (doesn't affect the lexer)
-idxTysBit = 9 -- indexed type families: 'family' keyword and kind sigs
+tyFamBit = 9 -- indexed type families: 'family' keyword and kind sigs
haddockBit = 10 -- Lex and parse Haddock comments
glaExtsEnabled, ffiEnabled, parrEnabled :: Int -> Bool
ipEnabled flags = testBit flags ipBit
tvEnabled flags = testBit flags tvBit
bangPatEnabled flags = testBit flags bangPatBit
-idxTysEnabled flags = testBit flags idxTysBit
+tyFamEnabled flags = testBit flags tyFamBit
haddockEnabled flags = testBit flags haddockBit
-- PState for parsing options pragmas
-- we begin in the layout state if toplev_layout is set
}
where
- bitmap = glaExtsBit `setBitIf` dopt Opt_GlasgowExts flags
- .|. ffiBit `setBitIf` dopt Opt_FFI flags
- .|. parrBit `setBitIf` dopt Opt_PArr flags
- .|. arrowsBit `setBitIf` dopt Opt_Arrows flags
- .|. thBit `setBitIf` dopt Opt_TH flags
+ bitmap = glaExtsBit `setBitIf` dopt Opt_GlasgowExts flags
+ .|. ffiBit `setBitIf` dopt Opt_FFI flags
+ .|. parrBit `setBitIf` dopt Opt_PArr flags
+ .|. arrowsBit `setBitIf` dopt Opt_Arrows flags
+ .|. thBit `setBitIf` dopt Opt_TH flags
.|. ipBit `setBitIf` dopt Opt_ImplicitParams flags
.|. tvBit `setBitIf` dopt Opt_ScopedTypeVariables flags
.|. bangPatBit `setBitIf` dopt Opt_BangPatterns flags
- .|. idxTysBit `setBitIf` dopt Opt_IndexedTypes flags
- .|. haddockBit `setBitIf` dopt Opt_Haddock flags
+ .|. tyFamBit `setBitIf` dopt Opt_TypeFamilies flags
+ .|. haddockBit `setBitIf` dopt Opt_Haddock flags
--
setBitIf :: Int -> Bool -> Int
b `setBitIf` cond | cond = bit b