X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Fparser%2FLexCore.hs;h=936786d9491008266127987380077d86072a2d86;hp=7be074a25dea49d82b3fd456f5ccb36e866663be;hb=317fc69d18eda68fd65f5ba634feafbe4a3923da;hpb=0d126b9c0dc9299a860fc6bb0e1dee05eb583de2 diff --git a/compiler/parser/LexCore.hs b/compiler/parser/LexCore.hs index 7be074a..936786d 100644 --- a/compiler/parser/LexCore.hs +++ b/compiler/parser/LexCore.hs @@ -3,7 +3,7 @@ module LexCore where import ParserCoreUtils import Ratio import Char -import qualified Numeric( readFloat, readDec ) +import Numeric isNameChar c = isAlpha c || isDigit c || (c == '_') || (c == '\'') || (c == ':') || (c == '$') @@ -97,39 +97,3 @@ lexKeyword cont cs = ("_",rest) -> cont TKwild rest _ -> failP "invalid keyword" ('%':cs) - -#if __GLASGOW_HASKELL__ >= 504 --- The readFloat in the Numeric library will do the job - -readFloat :: (RealFrac a) => ReadS a -readFloat = Numeric.readFloat - -#else --- Haskell 98's Numeric.readFloat used to have a bogusly restricted signature --- so it was incapable of reading a rational. --- So for GHCs that have that old bogus library, here is the code, written out longhand. - -readFloat r = [(fromRational ((n%1)*10^^(k-d)),t) | (n,d,s) <- readFix r, - (k,t) <- readExp s] ++ - [ (0/0, t) | ("NaN",t) <- lex r] ++ - [ (1/0, t) | ("Infinity",t) <- lex r] - where - readFix r = [(read (ds++ds'), length ds', t) - | (ds,d) <- lexDigits r, - (ds',t) <- lexFrac d ] - - lexFrac ('.':ds) = lexDigits ds - lexFrac s = [("",s)] - - readExp (e:s) | e `elem` "eE" = readExp' s - readExp s = [(0,s)] - - readExp' ('-':s) = [(-k,t) | (k,t) <- Numeric.readDec s] - readExp' ('+':s) = Numeric.readDec s - readExp' s = Numeric.readDec s - -lexDigits :: ReadS String -lexDigits s = case span isDigit s of - (cs,s') | not (null cs) -> [(cs,s')] - otherwise -> [] -#endif