X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Fparser%2FLexer.x;h=b3cab497f97a8cfd234f32731220dc0c7562057c;hp=856c2989af4fb722e645ff94a356d11d97e7aa97;hb=cae75f82226638691cfa1e85fc168f4b65ddce4d;hpb=d386e0d20c6953b7cba4d53538a1782c4aa9980d diff --git a/compiler/parser/Lexer.x b/compiler/parser/Lexer.x index 856c298..b3cab49 100644 --- a/compiler/parser/Lexer.x +++ b/compiler/parser/Lexer.x @@ -21,18 +21,31 @@ -- - pragma-end should be only valid in a pragma { +{-# OPTIONS -w #-} +-- The above warning supression flag is a temporary kludge. +-- While working on this module you are encouraged to remove it and fix +-- any warnings in the module. See +-- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings +-- for details +-- +-- Note that Alex itself generates code with with some unused bindings and +-- without type signatures, so removing the flag might not be possible. + +{-# OPTIONS_GHC -funbox-strict-fields #-} + module Lexer ( Token(..), lexer, pragState, mkPState, PState(..), P(..), ParseResult(..), getSrcLoc, failLocMsgP, failSpanMsgP, srcParseFail, + getMessages, popContext, pushCurrentContext, setLastToken, setSrcLoc, getLexState, popLexState, pushLexState, - extension, glaExtsEnabled, bangPatEnabled + extension, standaloneDerivingEnabled, bangPatEnabled, + addWarning ) where -#include "HsVersions.h" - -import ErrUtils ( Message ) +import Bag +import ErrUtils import Outputable import StringBuffer import FastString @@ -43,41 +56,39 @@ import DynFlags import Ctype import Util ( maybePrefixMatch, readRational ) +import Control.Monad import Data.Bits -import Data.Char ( chr, isSpace ) +import Data.Char ( chr, ord, isSpace ) import Data.Ratio import Debug.Trace -#if __GLASGOW_HASKELL__ >= 605 -import Data.Char ( GeneralCategory(..), generalCategory, isPrint, isUpper ) -#else -import Compat.Unicode ( GeneralCategory(..), generalCategory, isPrint, isUpper ) -#endif +import Unicode ( GeneralCategory(..), generalCategory, isPrint, isUpper ) } -$unispace = \x05 -$whitechar = [\ \t\n\r\f\v\xa0 $unispace] +$unispace = \x05 -- Trick Alex into handling Unicode. See alexGetChar. +$whitechar = [\ \n\r\f\v $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 +$ascsymbol = [\!\#\$\%\&\*\+\.\/\<\=\>\?\@\\\^\|\-\~] +$unisymbol = \x04 -- Trick Alex into handling Unicode. See alexGetChar. $symbol = [$ascsymbol $unisymbol] # [$special \_\:\"\'] -$unilarge = \x01 -$asclarge = [A-Z \xc0-\xd6 \xd8-\xde] +$unilarge = \x01 -- Trick Alex into handling Unicode. See alexGetChar. +$asclarge = [A-Z] $large = [$asclarge $unilarge] -$unismall = \x02 -$ascsmall = [a-z \xdf-\xf6 \xf8-\xff] +$unismall = \x02 -- Trick Alex into handling Unicode. See alexGetChar. +$ascsmall = [a-z] $small = [$ascsmall $unismall \_] -$unigraphic = \x06 +$unigraphic = \x06 -- Trick Alex into handling Unicode. See alexGetChar. $graphic = [$small $large $symbol $digit $special $unigraphic \:\"\'] $octit = 0-7 @@ -104,10 +115,16 @@ $docsym = [\| \^ \* \$] @floating_point = @decimal \. @decimal @exponent? | @decimal @exponent +-- normal signed numerical literals can only be explicitly negative, +-- not explicitly positive (contrast @exponent) +@negative = \- +@signed = @negative ? + haskell :- -- everywhere: skip whitespace and comments $white_no_nl+ ; +$tab+ { warn Opt_WarnTabs (text "Tab character") } -- Everywhere: deal with nested comments. We explicitly rule out -- pragmas, "{-#", so that we don't accidentally treat them as comments. @@ -131,12 +148,12 @@ $white_no_nl+ ; -- space followed by a Haddock comment symbol (docsym) (in which case we'd -- have a Haddock comment). The rules then munch the rest of the line. -"-- " ~$docsym .* ; +"-- " ~[$docsym \#] .* ; "--" [^$symbol : \ ] .* ; -- Next, match Haddock comments if no -haddock flag -"-- " $docsym .* / { ifExtension (not . haddockEnabled) } ; +"-- " [$docsym \#] .* / { ifExtension (not . haddockEnabled) } ; -- Now, when we've matched comments that begin with 2 dashes and continue -- with a different character, we need to match comments that begin with three @@ -192,7 +209,7 @@ $white_no_nl+ ; -- generate a matching '}' token. () { do_layout_left } -<0,option_prags,glaexts> \n { begin bol } +<0,option_prags> \n { begin bol } "{-#" $whitechar* (line|LINE) { begin line_prag2 } @@ -210,15 +227,16 @@ $white_no_nl+ ; -- NOTE: accept -} at the end of a LINE pragma, for compatibility -- with older versions of GHC which generated these. --- We only want RULES pragmas to be picked up when -fglasgow-exts --- is on, because the contents of the pragma is always written using --- glasgow-exts syntax (using forall etc.), so if glasgow exts are not --- enabled, we're sure to get a parse error. +-- We only want RULES pragmas to be picked up when explicit forall +-- syntax is enabled is on, because the contents of the pragma always +-- uses it. If it's not on then we're sure to get a parse error. -- (ToDo: we should really emit a warning when ignoring pragmas) - - "{-#" $whitechar* (RULES|rules) { token ITrules_prag } +-- XXX Now that we can enable this without the -fglasgow-exts hammer, +-- is it better just to let the parse error happen? +<0> + "{-#" $whitechar* (RULES|rules) / { ifExtension explicitForallEnabled } { token ITrules_prag } -<0,option_prags,glaexts> { +<0,option_prags> { "{-#" $whitechar* (INLINE|inline) { token (ITinline_prag True) } "{-#" $whitechar* (NO(T?)INLINE|no(t?)inline) { token (ITinline_prag False) } @@ -230,6 +248,8 @@ $white_no_nl+ ; $whitechar* (NO(T?)INLINE|no(t?)inline) { token (ITspec_inline_prag False) } "{-#" $whitechar* (SOURCE|source) { token ITsource_prag } + "{-#" $whitechar* (WARNING|warning) + { token ITwarning_prag } "{-#" $whitechar* (DEPRECATED|deprecated) { token ITdeprecated_prag } "{-#" $whitechar* (SCC|scc) { token ITscc_prag } @@ -238,9 +258,6 @@ $white_no_nl+ ; "{-#" $whitechar* (CORE|core) { token ITcore_prag } "{-#" $whitechar* (UNPACK|unpack) { token ITunpack_prag } - "{-#" $whitechar* (DOCOPTIONS|docoptions) - / { ifExtension haddockEnabled } { lex_string_prag ITdocOptions } - "{-#" { nested_comment lexToken } -- ToDo: should only be valid inside a pragma: @@ -248,36 +265,42 @@ $white_no_nl+ ; } { - "{-#" $whitechar* (OPTIONS|options) { lex_string_prag IToptions_prag } - "{-#" $whitechar* (OPTIONS_GHC|options_ghc) + "{-#" $whitechar* (OPTIONS|options) { lex_string_prag IToptions_prag } + "{-#" $whitechar* (OPTIONS_GHC|options_ghc) { lex_string_prag IToptions_prag } - "{-#" $whitechar* (LANGUAGE|language) { token ITlanguage_prag } - "{-#" $whitechar* (INCLUDE|include) { lex_string_prag ITinclude_prag } + "{-#" $whitechar* (OPTIONS_HADDOCK|options_haddock) + { lex_string_prag ITdocOptions } + "-- #" { multiline_doc_comment } + "{-#" $whitechar* (LANGUAGE|language) { token ITlanguage_prag } + "{-#" $whitechar* (INCLUDE|include) { lex_string_prag ITinclude_prag } } -<0,option_prags,glaexts> { +<0> { + "-- #" .* ; +} + +<0,option_prags> { -- This is to catch things like {-# OPTIONS OPTIONS_HUGS ... "{-#" $whitechar* $idchar+ { nested_comment lexToken } } -- '0' state: ordinary lexemes --- 'glaexts' state: glasgow extensions (postfix '#', etc.) -- Haddock comments -<0,glaexts> { - "-- " / $docsym { multiline_doc_comment } - "{-" \ ? / $docsym { nested_doc_comment } +<0> { + "-- " $docsym / { ifExtension haddockEnabled } { multiline_doc_comment } + "{-" \ ? $docsym / { ifExtension haddockEnabled } { nested_doc_comment } } -- "special" symbols -<0,glaexts> { +<0> { "[:" / { ifExtension parrEnabled } { token ITopabrack } ":]" / { ifExtension parrEnabled } { token ITcpabrack } } -<0,glaexts> { +<0> { "[|" / { ifExtension thEnabled } { token ITopenExpQuote } "[e|" / { ifExtension thEnabled } { token ITopenExpQuote } "[p|" / { ifExtension thEnabled } { token ITopenPatQuote } @@ -286,26 +309,34 @@ $white_no_nl+ ; "|]" / { ifExtension thEnabled } { token ITcloseQuote } \$ @varid / { ifExtension thEnabled } { skip_one_varid ITidEscape } "$(" / { ifExtension thEnabled } { token ITparenEscape } + + "[$" @varid "|" / { ifExtension qqEnabled } + { lex_quasiquote_tok } } -<0,glaexts> { +<0> { "(|" / { ifExtension arrowsEnabled `alexAndPred` notFollowedBySymbol } { special IToparenbar } "|)" / { ifExtension arrowsEnabled } { special ITcparenbar } } -<0,glaexts> { +<0> { \? @varid / { ifExtension ipEnabled } { skip_one_varid ITdupipvarid } } - { - "(#" / { notFollowedBySymbol } { token IToubxparen } - "#)" { token ITcubxparen } - "{|" { token ITocurlybar } - "|}" { token ITccurlybar } +<0> { + "(#" / { ifExtension unboxedTuplesEnabled `alexAndPred` notFollowedBySymbol } + { token IToubxparen } + "#)" / { ifExtension unboxedTuplesEnabled } + { token ITcubxparen } } -<0,option_prags,glaexts> { +<0> { + "{|" / { ifExtension genericsEnabled } { token ITocurlybar } + "|}" / { ifExtension genericsEnabled } { token ITccurlybar } +} + +<0,option_prags> { \( { special IToparen } \) { special ITcparen } \[ { special ITobrack } @@ -318,67 +349,72 @@ $white_no_nl+ ; \} { close_brace } } -<0,option_prags,glaexts> { - @qual @varid { check_qvarid } +<0,option_prags> { + @qual @varid { idtoken qvarid } @qual @conid { idtoken qconid } @varid { varid } @conid { idtoken conid } } --- after an illegal qvarid, such as 'M.let', --- we back up and try again in the bad_qvarid state: - { - @conid { pop_and (idtoken conid) } - @qual @conid { pop_and (idtoken qconid) } -} - - { - @qual @varid "#"+ { idtoken qvarid } - @qual @conid "#"+ { idtoken qconid } - @varid "#"+ { varid } - @conid "#"+ { idtoken conid } +<0> { + @qual @varid "#"+ / { ifExtension magicHashEnabled } { idtoken qvarid } + @qual @conid "#"+ / { ifExtension magicHashEnabled } { idtoken qconid } + @varid "#"+ / { ifExtension magicHashEnabled } { varid } + @conid "#"+ / { ifExtension magicHashEnabled } { idtoken conid } } -- ToDo: M.(,,,) -<0,glaexts> { +<0> { @qual @varsym { idtoken qvarsym } @qual @consym { idtoken qconsym } @varsym { varsym } @consym { consym } } -<0,glaexts> { - @decimal { tok_decimal } - 0[oO] @octal { tok_octal } - 0[xX] @hexadecimal { tok_hexadecimal } -} +-- For the normal boxed literals we need to be careful +-- when trying to be close to Haskell98 +<0> { + -- Normal integral literals (:: Num a => a, from Integer) + @decimal { tok_num positive 0 0 decimal } + 0[oO] @octal { tok_num positive 2 2 octal } + 0[xX] @hexadecimal { tok_num positive 2 2 hexadecimal } - { - @decimal \# { prim_decimal } - 0[oO] @octal \# { prim_octal } - 0[xX] @hexadecimal \# { prim_hexadecimal } + -- Normal rational literals (:: Fractional a => a, from Rational) + @floating_point { strtoken tok_float } } -<0,glaexts> @floating_point { strtoken tok_float } - @floating_point \# { init_strtoken 1 prim_float } - @floating_point \# \# { init_strtoken 2 prim_double } +<0> { + -- Unboxed ints (:: Int#) and words (:: Word#) + -- It's simpler (and faster?) to give separate cases to the negatives, + -- especially considering octal/hexadecimal prefixes. + @decimal \# / { ifExtension magicHashEnabled } { tok_primint positive 0 1 decimal } + 0[oO] @octal \# / { ifExtension magicHashEnabled } { tok_primint positive 2 3 octal } + 0[xX] @hexadecimal \# / { ifExtension magicHashEnabled } { tok_primint positive 2 3 hexadecimal } + @negative @decimal \# / { ifExtension magicHashEnabled } { tok_primint negative 1 2 decimal } + @negative 0[oO] @octal \# / { ifExtension magicHashEnabled } { tok_primint negative 3 4 octal } + @negative 0[xX] @hexadecimal \# / { ifExtension magicHashEnabled } { tok_primint negative 3 4 hexadecimal } + + @decimal \# \# / { ifExtension magicHashEnabled } { tok_primword 0 2 decimal } + 0[oO] @octal \# \# / { ifExtension magicHashEnabled } { tok_primword 2 4 octal } + 0[xX] @hexadecimal \# \# / { ifExtension magicHashEnabled } { tok_primword 2 4 hexadecimal } + + -- Unboxed floats and doubles (:: Float#, :: Double#) + -- prim_{float,double} work with signed literals + @signed @floating_point \# / { ifExtension magicHashEnabled } { init_strtoken 1 tok_primfloat } + @signed @floating_point \# \# / { ifExtension magicHashEnabled } { init_strtoken 2 tok_primdouble } +} -- Strings and chars are lexed by hand-written code. The reason is -- that even if we recognise the string or char here in the regex -- lexer, we would still have to parse the string afterward in order -- to convert it to a String. -<0,glaexts> { +<0> { \' { lex_char_tok } \" { lex_string_tok } } { --- work around bug in Alex 2.0 -#if __GLASGOW_HASKELL__ < 503 -unsafeAt arr i = arr ! i -#endif - -- ----------------------------------------------------------------------------- -- The token type @@ -391,7 +427,6 @@ data Token | ITderiving | ITdo | ITelse - | ITfor | IThiding | ITif | ITimport @@ -422,8 +457,10 @@ data Token | ITccallconv | ITdotnet | ITmdo - | ITiso | ITfamily + | ITgroup + | ITby + | ITusing -- Pragmas | ITinline_prag Bool -- True <=> INLINE, False <=> NOINLINE @@ -431,6 +468,7 @@ data Token | ITspec_inline_prag Bool -- SPECIALISE INLINE (or NOINLINE) | ITsource_prag | ITrules_prag + | ITwarning_prag | ITdeprecated_prag | ITline_prag | ITscc_prag @@ -467,8 +505,8 @@ data Token | ITvocurly | ITvccurly | ITobrack - | ITopabrack -- [:, for parallel arrays with -fparr - | ITcpabrack -- :], for parallel arrays with -fparr + | ITopabrack -- [:, for parallel arrays with -XParr + | ITcpabrack -- :], for parallel arrays with -XParr | ITcbrack | IToparen | ITcparen @@ -500,6 +538,7 @@ data Token | ITprimchar Char | ITprimstring FastString | ITprimint Integer + | ITprimword Integer | ITprimfloat Rational | ITprimdouble Rational @@ -513,6 +552,7 @@ data Token | ITparenEscape -- $( | ITvarQuote -- ' | ITtyQuote -- '' + | ITquasiQuote (FastString,FastString,SrcSpan) -- [:...|...|] -- Arrow notation extension | ITproc @@ -533,18 +573,19 @@ data Token | ITdocCommentNamed String -- something beginning '-- $' | ITdocSection Int String -- a section heading | ITdocOptions String -- doc options (prune, ignore-exports, etc) + | ITdocOptionsOld String -- doc options declared "-- # ..."-style #ifdef DEBUG deriving Show -- debugging #endif +{- isSpecial :: Token -> Bool -- If we see M.x, where x is a keyword, but -- is special, we treat is as just plain M.x, -- not as a keyword. isSpecial ITas = True isSpecial IThiding = True -isSpecial ITfor = True isSpecial ITqualified = True isSpecial ITforall = True isSpecial ITexport = True @@ -556,9 +597,12 @@ isSpecial ITunsafe = True isSpecial ITccallconv = True isSpecial ITstdcallconv = True isSpecial ITmdo = True -isSpecial ITiso = True isSpecial ITfamily = True +isSpecial ITgroup = True +isSpecial ITby = True +isSpecial ITusing = True isSpecial _ = False +-} -- the bitmap provided as the third component indicates whether the -- corresponding extension keyword is valid under the extension options @@ -578,7 +622,6 @@ reservedWordsFM = listToUFM $ ( "deriving", ITderiving, 0 ), ( "do", ITdo, 0 ), ( "else", ITelse, 0 ), - ( "for", ITfor, 0 ), ( "hiding", IThiding, 0 ), ( "if", ITif, 0 ), ( "import", ITimport, 0 ), @@ -597,9 +640,12 @@ reservedWordsFM = listToUFM $ ( "where", ITwhere, 0 ), ( "_scc_", ITscc, 0 ), -- ToDo: remove - ( "forall", ITforall, bit tvBit), - ( "mdo", ITmdo, bit glaExtsBit), - ( "family", ITfamily, bit idxTysBit), + ( "forall", ITforall, bit explicitForallBit), + ( "mdo", ITmdo, bit recursiveDoBit), + ( "family", ITfamily, bit tyFamBit), + ( "group", ITgroup, bit transformComprehensionsBit), + ( "by", ITby, bit transformComprehensionsBit), + ( "using", ITusing, bit transformComprehensionsBit), ( "foreign", ITforeign, bit ffiBit), ( "export", ITexport, bit ffiBit), @@ -616,40 +662,42 @@ reservedWordsFM = listToUFM $ ( "proc", ITproc, bit arrowsBit) ] +reservedSymsFM :: UniqFM (Token, Int -> Bool) reservedSymsFM = listToUFM $ - map (\ (x,y,z) -> (mkFastString x,(y,z))) - [ ("..", ITdotdot, 0) - ,(":", ITcolon, 0) -- (:) is a reserved op, - -- meaning only list cons - ,("::", ITdcolon, 0) - ,("=", ITequal, 0) - ,("\\", ITlam, 0) - ,("|", ITvbar, 0) - ,("<-", ITlarrow, 0) - ,("->", ITrarrow, 0) - ,("@", ITat, 0) - ,("~", ITtilde, 0) - ,("=>", ITdarrow, 0) - ,("-", ITminus, 0) - ,("!", ITbang, 0) - - ,("*", ITstar, bit glaExtsBit .|. - bit idxTysBit) -- For data T (a::*) = MkT - ,(".", ITdot, bit tvBit) -- For 'forall a . t' - - ,("-<", ITlarrowtail, bit arrowsBit) - ,(">-", ITrarrowtail, bit arrowsBit) - ,("-<<", ITLarrowtail, bit arrowsBit) - ,(">>-", ITRarrowtail, bit arrowsBit) + map (\ (x,y,z) -> (mkFastString x,(y,z))) + [ ("..", ITdotdot, always) + -- (:) is a reserved op, meaning only list cons + ,(":", ITcolon, always) + ,("::", ITdcolon, always) + ,("=", ITequal, always) + ,("\\", ITlam, always) + ,("|", ITvbar, always) + ,("<-", ITlarrow, always) + ,("->", ITrarrow, always) + ,("@", ITat, always) + ,("~", ITtilde, always) + ,("=>", ITdarrow, always) + ,("-", ITminus, always) + ,("!", ITbang, always) + + -- For data T (a::*) = MkT + ,("*", ITstar, \i -> kindSigsEnabled i || tyFamEnabled i) + -- For 'forall a . t' + ,(".", ITdot, explicitForallEnabled) + + ,("-<", ITlarrowtail, arrowsEnabled) + ,(">-", ITrarrowtail, arrowsEnabled) + ,("-<<", ITLarrowtail, arrowsEnabled) + ,(">>-", ITRarrowtail, arrowsEnabled) #if __GLASGOW_HASKELL__ >= 605 - ,("λ", ITlam, bit glaExtsBit) - ,("∷", ITdcolon, bit glaExtsBit) - ,("⇒", ITdarrow, bit glaExtsBit) - ,("∀", ITforall, bit glaExtsBit) - ,("→", ITrarrow, bit glaExtsBit) - ,("←", ITlarrow, bit glaExtsBit) - ,("⋯", ITdotdot, bit glaExtsBit) + ,("∷", ITdcolon, unicodeSyntaxEnabled) + ,("⇒", ITdarrow, unicodeSyntaxEnabled) + ,("∀", ITforall, \i -> unicodeSyntaxEnabled i && + explicitForallEnabled i) + ,("→", ITrarrow, unicodeSyntaxEnabled) + ,("←", ITlarrow, unicodeSyntaxEnabled) + ,("⋯", ITdotdot, unicodeSyntaxEnabled) -- ToDo: ideally, → and ∷ should be "specials", so that they cannot -- form part of a large operator. This would let us have a better -- syntax for kinds: ɑ∷*→* would be a legal kind signature. (maybe). @@ -662,11 +710,11 @@ reservedSymsFM = listToUFM $ type Action = SrcSpan -> StringBuffer -> Int -> P (Located Token) special :: Token -> Action -special tok span _buf len = return (L span tok) +special tok span _buf _len = return (L span tok) token, layout_token :: Token -> Action -token t span buf len = return (L span t) -layout_token t span buf len = pushLexState layout >> return (L span t) +token t span _buf _len = return (L span t) +layout_token t span _buf _len = pushLexState layout >> return (L span t) idtoken :: (StringBuffer -> Int -> Token) -> Action idtoken f span buf len = return (L span $! (f buf len)) @@ -702,17 +750,24 @@ notFollowedBy char _ _ _ (AI _ _ buf) notFollowedBySymbol _ _ _ (AI _ _ buf) = nextCharIs buf (`notElem` "!#$%&*+./<=>?@\\^|-~") +-- 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) | haddockEnabled bits = notFollowedByDocOrPragma | otherwise = nextCharIs buf (/='#') - where - notFollowedByDocOrPragma - = not $ spaceAndP buf (`nextCharIs` (`elem` "|^*$#")) + 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) +-} atEOL _ _ _ (AI _ _ buf) = atEnd buf || currentChar buf == '\n' @@ -753,7 +808,7 @@ multiline_doc_comment span buf _len = withLexedDocType (worker "") nested_comment :: P (Located Token) -> Action nested_comment cont span _str _len = do input <- getInput - go 1 input + go (1::Int) input where go 0 input = do setInput input; cont go n input = case alexGetChar input of @@ -761,12 +816,12 @@ nested_comment cont span _str _len = do Just ('-',input) -> case alexGetChar input of Nothing -> errBrace input span Just ('\125',input) -> go (n-1) input - Just (c,_) -> go n input + Just (_,_) -> go n input Just ('\123',input) -> case alexGetChar input of Nothing -> errBrace input span Just ('-',input) -> go (n+1) input - Just (c,_) -> go n input - Just (c,input) -> go n input + Just (_,_) -> go n input + Just (_,input) -> go n input nested_doc_comment :: Action nested_doc_comment span buf _len = withLexedDocType (go "") @@ -775,30 +830,30 @@ nested_doc_comment span buf _len = withLexedDocType (go "") Nothing -> errBrace input span Just ('-',input) -> case alexGetChar input of Nothing -> errBrace input span - Just ('\125',input@(AI end _ buf2)) -> + Just ('\125',input) -> docCommentEnd input commentAcc docType buf span - Just (c,_) -> go ('-':commentAcc) input docType False + Just (_,_) -> go ('-':commentAcc) input docType False Just ('\123', input) -> case alexGetChar input of Nothing -> errBrace input span Just ('-',input) -> do setInput input let cont = do input <- getInput; go commentAcc input docType False nested_comment cont span buf _len - Just (c,_) -> go ('\123':commentAcc) input docType False + Just (_,_) -> go ('\123':commentAcc) input docType False Just (c,input) -> go (c:commentAcc) input docType False withLexedDocType lexDocComment = do - input <- getInput - case alexGetChar input of - Nothing -> error "Can't happen" - Just ('|', input) -> lexDocComment input ITdocCommentNext False - Just ('^', input) -> lexDocComment input ITdocCommentPrev False - Just ('$', input) -> lexDocComment input ITdocCommentNamed False - Just ('*', input) -> lexDocSection 1 input + input@(AI _ _ buf) <- getInput + case prevChar buf ' ' of + '|' -> lexDocComment input ITdocCommentNext False + '^' -> lexDocComment input ITdocCommentPrev False + '$' -> lexDocComment input ITdocCommentNamed False + '*' -> lexDocSection 1 input + '#' -> lexDocComment input ITdocOptionsOld False where lexDocSection n input = case alexGetChar input of Just ('*', input) -> lexDocSection (n+1) input - Just (c, _) -> lexDocComment input (ITdocSection n) True + Just (_, _) -> lexDocComment input (ITdocSection n) True Nothing -> do setInput input; lexToken -- eof reached, lex it normally -- docCommentEnd @@ -844,30 +899,6 @@ close_brace span _str _len = do popContext return (L span ITccurly) --- We have to be careful not to count M. as a qualified name --- when is a keyword. We hack around this by catching --- the offending tokens afterward, and re-lexing in a different state. -check_qvarid span buf len = do - case lookupUFM reservedWordsFM var of - Just (keyword,exts) - | not (isSpecial keyword) -> - if exts == 0 - then try_again - else do - b <- extension (\i -> exts .&. i /= 0) - if b then try_again - else return token - _other -> return token - where - (mod,var) = splitQualName buf len - token = L span (ITqvarid (mod,var)) - - try_again = do - (AI _ offs _) <- getInput - setInput (AI (srcSpanStart span) (offs-len) buf) - pushLexState bad_qvarid - lexToken - qvarid buf len = ITqvarid $! splitQualName buf len qconid buf len = ITqconid $! splitQualName buf len @@ -900,6 +931,7 @@ splitQualName orig_buf len = split orig_buf orig_buf qual_size = orig_buf `byteDiff` dot_buf varid span buf len = + fs `seq` case lookupUFM reservedWordsFM fs of Just (keyword,0) -> do maybe_layout keyword @@ -924,36 +956,38 @@ consym = sym ITconsym sym con span buf len = case lookupUFM reservedSymsFM fs of - Just (keyword,0) -> return (L span keyword) Just (keyword,exts) -> do - b <- extension (\i -> exts .&. i /= 0) + b <- extension exts if b then return (L span keyword) else return (L span $! con fs) _other -> return (L span $! con fs) where fs = lexemeToFastString buf len -tok_decimal span buf len - = return (L span (ITinteger $! parseInteger buf len 10 octDecDigit)) - -tok_octal span buf len - = return (L span (ITinteger $! parseInteger (offsetBytes 2 buf) (len-2) 8 octDecDigit)) - -tok_hexadecimal span buf len - = return (L span (ITinteger $! parseInteger (offsetBytes 2 buf) (len-2) 16 hexDigit)) - -prim_decimal span buf len - = return (L span (ITprimint $! parseInteger buf (len-1) 10 octDecDigit)) - -prim_octal span buf len - = return (L span (ITprimint $! parseInteger (offsetBytes 2 buf) (len-3) 8 octDecDigit)) - -prim_hexadecimal span buf len - = return (L span (ITprimint $! parseInteger (offsetBytes 2 buf) (len-3) 16 hexDigit)) - +-- Variations on the integral numeric literal. +tok_integral :: (Integer -> Token) + -> (Integer -> Integer) + -- -> (StringBuffer -> StringBuffer) -> (Int -> Int) + -> Int -> Int + -> (Integer, (Char->Int)) -> Action +tok_integral itint transint transbuf translen (radix,char_to_int) span buf len = + return $ L span $ itint $! transint $ parseUnsignedInteger + (offsetBytes transbuf buf) (subtract translen len) radix char_to_int + +-- some conveniences for use with tok_integral +tok_num = tok_integral ITinteger +tok_primint = tok_integral ITprimint +tok_primword = tok_integral ITprimword positive +positive = id +negative = negate +decimal = (10,octDecDigit) +octal = (8,octDecDigit) +hexadecimal = (16,hexDigit) + +-- readRational can understand negative rationals, exponents, everything. tok_float str = ITrational $! readRational str -prim_float str = ITprimfloat $! readRational str -prim_double str = ITprimdouble $! readRational str +tok_primfloat str = ITprimfloat $! readRational str +tok_primdouble str = ITprimdouble $! readRational str -- ----------------------------------------------------------------------------- -- Layout processing @@ -1007,7 +1041,7 @@ new_layout_context strict span _buf _len = do -- we must generate a {} sequence now. pushLexState layout_left return (L span ITvocurly) - other -> do + _ -> do setContext (Layout offset : ctx) return (L span ITvocurly) @@ -1021,7 +1055,7 @@ do_layout_left span _buf _len = do setLine :: Int -> Action setLine code span buf len = do - let line = parseInteger buf len 10 octDecDigit + let line = parseUnsignedInteger buf len 10 octDecDigit setSrcLoc (mkSrcLoc (srcSpanFile span) (fromIntegral line - 1) 0) -- subtract one: the line number refers to the *following* line popLexState @@ -1041,7 +1075,7 @@ setFile code span buf len = do -- Options, includes and language pragmas. lex_string_prag :: (String -> Token) -> Action -lex_string_prag mkTok span buf len +lex_string_prag mkTok span _buf _len = do input <- getInput start <- getSrcLoc tok <- go [] input @@ -1054,7 +1088,7 @@ lex_string_prag mkTok span buf len else case alexGetChar input of Just (c,i) -> go (c:acc) i Nothing -> err input - isString i [] = True + isString _ [] = True isString i (x:xs) = case alexGetChar i of Just (c,i') | c == x -> isString i' xs @@ -1068,7 +1102,7 @@ lex_string_prag mkTok span buf len -- This stuff is horrible. I hates it. lex_string_tok :: Action -lex_string_tok span buf len = do +lex_string_tok span _buf _len = do tok <- lex_string "" end <- getSrcLoc return (L (mkSrcSpan (srcSpanStart span) end) tok) @@ -1081,8 +1115,8 @@ lex_string s = do Just ('"',i) -> do setInput i - glaexts <- extension glaExtsEnabled - if glaexts + magicHash <- extension magicHashEnabled + if magicHash then do i <- getInput case alexGetChar' i of @@ -1125,7 +1159,7 @@ lex_char_tok :: Action -- but WIHTOUT CONSUMING the x or T part (the parser does that). -- So we have to do two characters of lookahead: when we see 'x we need to -- see if there's a trailing quote -lex_char_tok span buf len = do -- We've seen ' +lex_char_tok span _buf _len = do -- We've seen ' i1 <- getInput -- Look ahead to first character let loc = srcSpanStart span case alexGetChar' i1 of @@ -1138,14 +1172,14 @@ lex_char_tok span buf len = do -- We've seen ' return (L (mkSrcSpan loc end2) ITtyQuote) else lit_error - Just ('\\', i2@(AI end2 _ _)) -> do -- We've seen 'backslash + Just ('\\', i2@(AI _end2 _ _)) -> do -- We've seen 'backslash setInput i2 lit_ch <- lex_escape mc <- getCharOrFail -- Trailing quote if mc == '\'' then finish_char_tok loc lit_ch else do setInput i2; lit_error - Just (c, i2@(AI end2 _ _)) + Just (c, i2@(AI _end2 _ _)) | not (isAny c) -> lit_error | otherwise -> @@ -1166,9 +1200,9 @@ lex_char_tok span buf len = do -- We've seen ' finish_char_tok :: SrcLoc -> Char -> P (Located Token) finish_char_tok loc ch -- We've already seen the closing quote -- Just need to check for trailing # - = do glaexts <- extension glaExtsEnabled + = do magicHash <- extension magicHashEnabled i@(AI end _ _) <- getInput - if glaexts then do + if magicHash then do case alexGetChar' i of Just ('#',i@(AI end _ _)) -> do setInput i @@ -1185,7 +1219,7 @@ lex_char c inp = do c | isAny c -> do setInput inp; return c _other -> lit_error -isAny c | c > '\xff' = isPrint c +isAny c | c > '\x7f' = isPrint c | otherwise = is_any c lex_escape :: P Char @@ -1209,7 +1243,7 @@ lex_escape = do 'x' -> readNum is_hexdigit 16 hexDigit 'o' -> readNum is_octdigit 8 octDecDigit - x | is_digit x -> readNum2 is_digit 10 octDecDigit (octDecDigit x) + x | is_decdigit x -> readNum2 is_decdigit 10 octDecDigit (octDecDigit x) c1 -> do i <- getInput @@ -1301,6 +1335,50 @@ getCharOrFail = do Just (c,i) -> do setInput i; return c -- ----------------------------------------------------------------------------- +-- QuasiQuote + +lex_quasiquote_tok :: Action +lex_quasiquote_tok span buf len = do + let quoter = reverse $ takeWhile (/= '$') + $ reverse $ lexemeToString buf (len - 1) + quoteStart <- getSrcLoc + quote <- lex_quasiquote "" + end <- getSrcLoc + return (L (mkSrcSpan (srcSpanStart span) end) + (ITquasiQuote (mkFastString quoter, + mkFastString (reverse quote), + mkSrcSpan quoteStart end))) + +lex_quasiquote :: String -> P String +lex_quasiquote s = do + i <- getInput + case alexGetChar' i of + Nothing -> lit_error + + Just ('\\',i) + | Just ('|',i) <- next -> do + setInput i; lex_quasiquote ('|' : s) + | Just (']',i) <- next -> do + setInput i; lex_quasiquote (']' : s) + where next = alexGetChar' i + + Just ('|',i) + | Just (']',i) <- next -> do + setInput i; return s + where next = alexGetChar' i + + Just (c, i) -> do + setInput i; lex_quasiquote (c : s) + +-- ----------------------------------------------------------------------------- +-- Warnings + +warn :: DynFlag -> SDoc -> Action +warn option warning srcspan _buf _len = do + addWarning option srcspan warning + lexToken + +-- ----------------------------------------------------------------------------- -- The Parse Monad data LayoutContext @@ -1318,6 +1396,8 @@ data ParseResult a data PState = PState { buffer :: StringBuffer, + dflags :: DynFlags, + messages :: Messages, last_loc :: SrcSpan, -- pos of previous token last_offs :: !Int, -- offset of the previous token from the -- beginning of the current line. @@ -1343,7 +1423,7 @@ instance Monad P where fail = failP returnP :: a -> P a -returnP a = P $ \s -> POk s a +returnP a = a `seq` (P $ \s -> POk s a) thenP :: P a -> (a -> P b) -> P b (P m) `thenP` k = P $ \ s -> @@ -1358,10 +1438,10 @@ failMsgP :: String -> P a failMsgP msg = P $ \s -> PFailed (last_loc s) (text msg) failLocMsgP :: SrcLoc -> SrcLoc -> String -> P a -failLocMsgP loc1 loc2 str = P $ \s -> PFailed (mkSrcSpan loc1 loc2) (text str) +failLocMsgP loc1 loc2 str = P $ \_ -> PFailed (mkSrcSpan loc1 loc2) (text str) -failSpanMsgP :: SrcSpan -> String -> P a -failSpanMsgP span msg = P $ \s -> PFailed span (text msg) +failSpanMsgP :: SrcSpan -> SDoc -> P a +failSpanMsgP span msg = P $ \_ -> PFailed span msg extension :: (Int -> Bool) -> P Bool extension p = P $ \s -> POk s (p $! extsBitmap s) @@ -1407,14 +1487,17 @@ alexGetChar (AI loc ofs s) adj_c | c <= '\x06' = non_graphic - | c <= '\xff' = c + | c <= '\x7f' = 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 LowercaseLetter -> lower TitlecaseLetter -> upper ModifierLetter -> other_graphic - OtherLetter -> other_graphic + OtherLetter -> lower -- see #1103 NonSpacingMark -> other_graphic SpacingCombiningMark -> other_graphic EnclosingMark -> other_graphic @@ -1448,7 +1531,7 @@ alexGetChar' (AI loc ofs s) ofs' = advanceOffs c ofs advanceOffs :: Char -> Int -> Int -advanceOffs '\n' offs = 0 +advanceOffs '\n' _ = 0 advanceOffs '\t' offs = (offs `quot` 8 + 1) * 8 advanceOffs _ offs = offs + 1 @@ -1465,43 +1548,62 @@ popLexState :: P Int popLexState = P $ \s@PState{ lex_state=ls:l } -> POk s{ lex_state=l } ls getLexState :: P Int -getLexState = P $ \s@PState{ lex_state=ls:l } -> POk s ls +getLexState = P $ \s@PState{ lex_state=ls:_ } -> POk s ls -- for reasons of efficiency, flags indicating language extensions (eg, --- -fglasgow-exts or -fparr) are represented by a bitmap stored in an unboxed +-- -fglasgow-exts or -XParr) are represented by a bitmap stored in an unboxed -- integer -glaExtsBit, ffiBit, parrBit :: Int -glaExtsBit = 0 +genericsBit, ffiBit, parrBit :: Int +genericsBit = 0 -- {| and |} ffiBit = 1 parrBit = 2 arrowsBit = 4 thBit = 5 ipBit = 6 -tvBit = 7 -- Scoped type variables enables 'forall' keyword +explicitForallBit = 7 -- the 'forall' keyword and '.' symbol 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 -glaExtsEnabled flags = testBit flags glaExtsBit -ffiEnabled flags = testBit flags ffiBit -parrEnabled flags = testBit flags parrBit -arrowsEnabled flags = testBit flags arrowsBit -thEnabled flags = testBit flags thBit -ipEnabled flags = testBit flags ipBit -tvEnabled flags = testBit flags tvBit -bangPatEnabled flags = testBit flags bangPatBit -idxTysEnabled flags = testBit flags idxTysBit -haddockEnabled flags = testBit flags haddockBit +magicHashBit = 11 -- # in both functions and operators +kindSigsBit = 12 -- Kind signatures on type variables +recursiveDoBit = 13 -- mdo +unicodeSyntaxBit = 14 -- the forall symbol, arrow symbols, etc +unboxedTuplesBit = 15 -- (# and #) +standaloneDerivingBit = 16 -- standalone instance deriving declarations +transformComprehensionsBit = 17 +qqBit = 18 -- enable quasiquoting + +genericsEnabled, ffiEnabled, parrEnabled :: Int -> Bool +always _ = True +genericsEnabled flags = testBit flags genericsBit +ffiEnabled flags = testBit flags ffiBit +parrEnabled flags = testBit flags parrBit +arrowsEnabled flags = testBit flags arrowsBit +thEnabled flags = testBit flags thBit +ipEnabled flags = testBit flags ipBit +explicitForallEnabled flags = testBit flags explicitForallBit +bangPatEnabled flags = testBit flags bangPatBit +tyFamEnabled flags = testBit flags tyFamBit +haddockEnabled flags = testBit flags haddockBit +magicHashEnabled flags = testBit flags magicHashBit +kindSigsEnabled flags = testBit flags kindSigsBit +recursiveDoEnabled flags = testBit flags recursiveDoBit +unicodeSyntaxEnabled flags = testBit flags unicodeSyntaxBit +unboxedTuplesEnabled flags = testBit flags unboxedTuplesBit +standaloneDerivingEnabled flags = testBit flags standaloneDerivingBit +transformComprehensionsEnabled flags = testBit flags transformComprehensionsBit +qqEnabled flags = testBit flags qqBit -- PState for parsing options pragmas -- -pragState :: StringBuffer -> SrcLoc -> PState -pragState buf loc = +pragState :: DynFlags -> StringBuffer -> SrcLoc -> PState +pragState dynflags buf loc = PState { - buffer = buf, + buffer = buf, + messages = emptyMessages, + dflags = dynflags, last_loc = mkSrcSpan loc loc, last_offs = 0, last_len = 0, @@ -1519,6 +1621,8 @@ mkPState :: StringBuffer -> SrcLoc -> DynFlags -> PState mkPState buf loc flags = PState { buffer = buf, + dflags = flags, + messages = emptyMessages, last_loc = mkSrcSpan loc loc, last_offs = 0, last_len = 0, @@ -1526,25 +1630,47 @@ mkPState buf loc flags = loc = loc, extsBitmap = fromIntegral bitmap, context = [], - lex_state = [bol, if glaExtsEnabled bitmap then glaexts else 0] + lex_state = [bol, 0] -- 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 - .|. 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 + bitmap = genericsBit `setBitIf` dopt Opt_Generics flags + .|. ffiBit `setBitIf` dopt Opt_ForeignFunctionInterface flags + .|. parrBit `setBitIf` dopt Opt_PArr flags + .|. arrowsBit `setBitIf` dopt Opt_Arrows flags + .|. thBit `setBitIf` dopt Opt_TemplateHaskell flags + .|. qqBit `setBitIf` dopt Opt_QuasiQuotes flags + .|. ipBit `setBitIf` dopt Opt_ImplicitParams flags + .|. explicitForallBit `setBitIf` dopt Opt_ScopedTypeVariables flags + .|. explicitForallBit `setBitIf` dopt Opt_PolymorphicComponents flags + .|. explicitForallBit `setBitIf` dopt Opt_ExistentialQuantification flags + .|. explicitForallBit `setBitIf` dopt Opt_Rank2Types flags + .|. explicitForallBit `setBitIf` dopt Opt_RankNTypes flags + .|. bangPatBit `setBitIf` dopt Opt_BangPatterns flags + .|. tyFamBit `setBitIf` dopt Opt_TypeFamilies flags + .|. haddockBit `setBitIf` dopt Opt_Haddock flags + .|. magicHashBit `setBitIf` dopt Opt_MagicHash flags + .|. kindSigsBit `setBitIf` dopt Opt_KindSignatures flags + .|. recursiveDoBit `setBitIf` dopt Opt_RecursiveDo flags + .|. unicodeSyntaxBit `setBitIf` dopt Opt_UnicodeSyntax flags + .|. unboxedTuplesBit `setBitIf` dopt Opt_UnboxedTuples flags + .|. standaloneDerivingBit `setBitIf` dopt Opt_StandaloneDeriving flags + .|. transformComprehensionsBit `setBitIf` dopt Opt_TransformListComp flags -- setBitIf :: Int -> Bool -> Int b `setBitIf` cond | cond = bit b | otherwise = 0 +addWarning :: DynFlag -> SrcSpan -> SDoc -> P () +addWarning option srcspan warning + = P $ \s@PState{messages=(ws,es), dflags=d} -> + let warning' = mkWarnMsg srcspan alwaysQualify warning + ws' = if dopt option d then ws `snocBag` warning' else ws + in POk s{messages=(ws', es)} () + +getMessages :: PState -> Messages +getMessages PState{messages=ms} = ms + getContext :: P [LayoutContext] getContext = P $ \s@PState{context=ctx} -> POk s ctx @@ -1553,7 +1679,7 @@ setContext ctx = P $ \s -> POk s{context=ctx} () popContext :: P () popContext = P $ \ s@(PState{ buffer = buf, context = ctx, - loc = loc, last_len = len, last_loc = last_loc }) -> + last_len = len, last_loc = last_loc }) -> case ctx of (_:tl) -> POk s{ context = tl } () [] -> PFailed last_loc (srcParseErr buf len) @@ -1582,8 +1708,8 @@ srcParseErr -> Message srcParseErr buf len = hcat [ if null token - then ptext SLIT("parse error (possibly incorrect indentation)") - else hcat [ptext SLIT("parse error on input "), + then ptext (sLit "parse error (possibly incorrect indentation)") + else hcat [ptext (sLit "parse error on input "), char '`', text token, char '\''] ] where token = lexemeToString (offsetBytes (-len) buf) len @@ -1601,7 +1727,7 @@ srcParseFail = P $ \PState{ buffer = buf, last_len = len, lexError :: String -> P a lexError str = do loc <- getSrcLoc - i@(AI end _ buf) <- getInput + (AI end _ buf) <- getInput reportLexError loc end buf str -- ----------------------------------------------------------------------------- @@ -1610,7 +1736,7 @@ lexError str = do lexer :: (Located Token -> P a) -> P a lexer cont = do - tok@(L span tok__) <- lexToken + tok@(L _span _tok__) <- lexToken -- trace ("token: " ++ show tok__) $ do cont tok @@ -1620,20 +1746,21 @@ lexToken = do sc <- getLexState exts <- getExts case alexScanUser exts inp sc of - AlexEOF -> do let span = mkSrcSpan loc1 loc1 - setLastToken span 0 0 - return (L span ITeof) - AlexError (AI loc2 _ buf) -> do - reportLexError loc1 loc2 buf "lexical error" + AlexEOF -> do + let span = mkSrcSpan loc1 loc1 + setLastToken span 0 0 + return (L span ITeof) + AlexError (AI loc2 _ buf) -> + reportLexError loc1 loc2 buf "lexical error" AlexSkip inp2 _ -> do - setInput inp2 - lexToken - AlexToken inp2@(AI end _ buf2) len t -> do - setInput inp2 - let span = mkSrcSpan loc1 end - let bytes = byteDiff buf buf2 - span `seq` setLastToken span bytes bytes - t span buf bytes + setInput inp2 + lexToken + AlexToken inp2@(AI end _ buf2) _ t -> do + setInput inp2 + let span = mkSrcSpan loc1 end + let bytes = byteDiff buf buf2 + span `seq` setLastToken span bytes bytes + t span buf bytes reportLexError loc1 loc2 buf str | atEnd buf = failLocMsgP loc1 loc2 (str ++ " at end of input")