X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fcompiler%2FbasicTypes%2FLiteral.lhs;h=f2d09f37334b2017848dc6af92255f7a1b6a5c46;hb=9208de5cd7f22942c0a72d34f9716427cda97bbe;hp=5caf003760e9cf05d6da18a82343c051f11a8e3a;hpb=26741ec416bae2c502ef00a2ba0e79050a32cb67;p=ghc-hetmet.git diff --git a/ghc/compiler/basicTypes/Literal.lhs b/ghc/compiler/basicTypes/Literal.lhs index 5caf003..f2d09f3 100644 --- a/ghc/compiler/basicTypes/Literal.lhs +++ b/ghc/compiler/basicTypes/Literal.lhs @@ -1,37 +1,87 @@ % -% (c) The GRASP/AQUA Project, Glasgow University, 1992-1996 +% (c) The GRASP/AQUA Project, Glasgow University, 1998 % \section[Literal]{@Literal@: Machine literals (unboxed, of course)} \begin{code} +module Literal + ( Literal(..) -- Exported to ParseIface + , mkMachInt, mkMachWord + , mkMachInt64, mkMachWord64 + , isLitLitLit, maybeLitLit, litSize, litIsDupable, + , literalType, literalPrimRep + , hashLiteral + + , inIntRange, inWordRange, tARGET_MAX_INT, inCharRange + , isZeroLit, + + , word2IntLit, int2WordLit + , narrow8IntLit, narrow16IntLit, narrow32IntLit + , narrow8WordLit, narrow16WordLit, narrow32WordLit + , char2IntLit, int2CharLit + , float2IntLit, int2FloatLit, double2IntLit, int2DoubleLit + , nullAddrLit, float2DoubleLit, double2FloatLit + ) where + #include "HsVersions.h" -module Literal ( - Literal(..), - - mkMachInt, mkMachWord, - literalType, literalPrimRep, - showLiteral, - isNoRepLit, isLitLitLit - ) where - -IMP_Ubiq(){-uitous-} -IMPORT_1_3(Ratio) - --- friends: -import PrimRep ( PrimRep(..) ) -- non-abstract -import TysPrim ( getPrimRepInfo, - addrPrimTy, intPrimTy, floatPrimTy, - doublePrimTy, charPrimTy, wordPrimTy ) - --- others: -import CStrings ( stringToC, charToC, charToEasyHaskell ) -import TysWiredIn ( stringTy ) -import Pretty -- pretty-printing stuff -import PprStyle ( PprStyle(..), codeStyle ) -import Util ( thenCmp, panic ) +import TysPrim ( charPrimTy, addrPrimTy, floatPrimTy, doublePrimTy, + intPrimTy, wordPrimTy, int64PrimTy, word64PrimTy + ) +import PrimRep ( PrimRep(..) ) +import TcType ( Type, tcCmpType ) +import Type ( typePrimRep ) +import PprType ( pprParendType ) +import CStrings ( pprFSInCStyle ) + +import Outputable +import FastTypes +import FastString +import Binary +import Util ( thenCmp ) + +import Ratio ( numerator ) +import FastString ( uniqueOfFS, lengthFS ) +import DATA_INT ( Int8, Int16, Int32 ) +import DATA_WORD ( Word8, Word16, Word32 ) +import Char ( ord, chr ) \end{code} + + +%************************************************************************ +%* * +\subsection{Sizes} +%* * +%************************************************************************ + +If we're compiling with GHC (and we're not cross-compiling), then we +know that minBound and maxBound :: Int are the right values for the +target architecture. Otherwise, we assume -2^31 and 2^31-1 +respectively (which will be wrong on a 64-bit machine). + +\begin{code} +tARGET_MIN_INT, tARGET_MAX_INT, tARGET_MAX_WORD :: Integer +#if __GLASGOW_HASKELL__ +tARGET_MIN_INT = toInteger (minBound :: Int) +tARGET_MAX_INT = toInteger (maxBound :: Int) +#else +tARGET_MIN_INT = -2147483648 +tARGET_MAX_INT = 2147483647 +#endif +tARGET_MAX_WORD = (tARGET_MAX_INT * 2) + 1 + +tARGET_MAX_CHAR :: Int +tARGET_MAX_CHAR = 0x10ffff +\end{code} + + +%************************************************************************ +%* * +\subsection{Literals} +%* * +%************************************************************************ + So-called @Literals@ are {\em either}: \begin{itemize} \item @@ -46,189 +96,377 @@ function applications, etc., etc., has not yet been done. \begin{code} data Literal - = MachChar Char - | MachStr FAST_STRING - | MachAddr Integer -- whatever this machine thinks is a "pointer" - | MachInt Integer -- for the numeric types, these are - Bool -- True <=> signed (Int#); False <=> unsigned (Word#) + = ------------------ + -- First the primitive guys + MachChar Int -- Char# At least 31 bits + | MachStr FastString + + | MachAddr Integer -- Whatever this machine thinks is a "pointer" + + | MachInt Integer -- Int# At least WORD_SIZE_IN_BITS bits + | MachInt64 Integer -- Int64# At least 64 bits + | MachWord Integer -- Word# At least WORD_SIZE_IN_BITS bits + | MachWord64 Integer -- Word64# At least 64 bits + | MachFloat Rational | MachDouble Rational - | MachLitLit FAST_STRING - PrimRep - - | NoRepStr FAST_STRING -- the uncommitted ones - | NoRepInteger Integer Type{-save what we learned in the typechecker-} - | NoRepRational Rational Type{-ditto-} - - -- deriving (Eq, Ord): no, don't want to compare Types - -- The Ord is needed for the FiniteMap used in the lookForConstructor - -- in SimplEnv. If you declared that lookForConstructor *ignores* - -- constructor-applications with LitArg args, then you could get - -- rid of this Ord. - -mkMachInt, mkMachWord :: Integer -> Literal - -mkMachInt x = MachInt x True{-signed-} -mkMachWord x = MachInt x False{-unsigned-} - -instance Ord3 Literal where - cmp (MachChar a) (MachChar b) = a `tcmp` b - cmp (MachStr a) (MachStr b) = a `tcmp` b - cmp (MachAddr a) (MachAddr b) = a `tcmp` b - cmp (MachInt a b) (MachInt c d) = (a `tcmp` c) `thenCmp` (b `tcmp` d) - cmp (MachFloat a) (MachFloat b) = a `tcmp` b - cmp (MachDouble a) (MachDouble b) = a `tcmp` b - cmp (MachLitLit a b) (MachLitLit c d) = (a `tcmp` c) `thenCmp` (b `tcmp` d) - cmp (NoRepStr a) (NoRepStr b) = a `tcmp` b - cmp (NoRepInteger a _) (NoRepInteger b _) = a `tcmp` b - cmp (NoRepRational a _) (NoRepRational b _) = a `tcmp` b - - -- now we *know* the tags are different, so... - cmp other_1 other_2 - | tag1 _LT_ tag2 = LT_ - | otherwise = GT_ - where - tag1 = tagof other_1 - tag2 = tagof other_2 - - tagof (MachChar _) = ILIT(1) - tagof (MachStr _) = ILIT(2) - tagof (MachAddr _) = ILIT(3) - tagof (MachInt _ _) = ILIT(4) - tagof (MachFloat _) = ILIT(5) - tagof (MachDouble _) = ILIT(6) - tagof (MachLitLit _ _) = ILIT(7) - tagof (NoRepStr _) = ILIT(8) - tagof (NoRepInteger _ _) = ILIT(9) - tagof (NoRepRational _ _) = ILIT(10) - -tcmp x y = case _tagCmp x y of { _LT -> LT_; _EQ -> EQ_; GT__ -> GT_ } + + -- MachLabel is used (only) for the literal derived from a + -- "foreign label" declaration. + -- string argument is the name of a symbol. This literal + -- refers to the *address* of the label. + | MachLabel FastString -- always an Addr# + + -- lit-lits only work for via-C compilation, hence they + -- are deprecated. The string is emitted verbatim into + -- the C file, and can therefore be any C expression, + -- macro call, #defined constant etc. + | MachLitLit FastString Type -- Type might be Addr# or Int# etc +\end{code} + +Binary instance: must do this manually, because we don't want the type +arg of MachLitLit involved. + +\begin{code} +instance Binary Literal where + put_ bh (MachChar aa) = do putByte bh 0; put_ bh aa + put_ bh (MachStr ab) = do putByte bh 1; put_ bh ab + put_ bh (MachAddr ac) = do putByte bh 2; put_ bh ac + put_ bh (MachInt ad) = do putByte bh 3; put_ bh ad + put_ bh (MachInt64 ae) = do putByte bh 4; put_ bh ae + put_ bh (MachWord af) = do putByte bh 5; put_ bh af + put_ bh (MachWord64 ag) = do putByte bh 6; put_ bh ag + put_ bh (MachFloat ah) = do putByte bh 7; put_ bh ah + put_ bh (MachDouble ai) = do putByte bh 8; put_ bh ai + put_ bh (MachLabel aj) = do putByte bh 9; put_ bh aj + put_ bh (MachLitLit ak _) = do putByte bh 10; put_ bh ak + get bh = do + h <- getByte bh + case h of + 0 -> do + aa <- get bh + return (MachChar aa) + 1 -> do + ab <- get bh + return (MachStr ab) + 2 -> do + ac <- get bh + return (MachAddr ac) + 3 -> do + ad <- get bh + return (MachInt ad) + 4 -> do + ae <- get bh + return (MachInt64 ae) + 5 -> do + af <- get bh + return (MachWord af) + 6 -> do + ag <- get bh + return (MachWord64 ag) + 7 -> do + ah <- get bh + return (MachFloat ah) + 8 -> do + ai <- get bh + return (MachDouble ai) + 9 -> do + aj <- get bh + return (MachLabel aj) + 10 -> do + ak <- get bh + return (MachLitLit ak (error "MachLitLit: no type")) +\end{code} + +\begin{code} +instance Outputable Literal where + ppr lit = pprLit lit + +instance Show Literal where + showsPrec p lit = showsPrecSDoc p (ppr lit) instance Eq Literal where - a == b = case (a `cmp` b) of { EQ_ -> True; _ -> False } - a /= b = case (a `cmp` b) of { EQ_ -> False; _ -> True } + a == b = case (a `compare` b) of { EQ -> True; _ -> False } + a /= b = case (a `compare` b) of { EQ -> False; _ -> True } instance Ord Literal where - a <= b = case (a `cmp` b) of { LT_ -> True; EQ_ -> True; GT__ -> False } - a < b = case (a `cmp` b) of { LT_ -> True; EQ_ -> False; GT__ -> False } - a >= b = case (a `cmp` b) of { LT_ -> False; EQ_ -> True; GT__ -> True } - a > b = case (a `cmp` b) of { LT_ -> False; EQ_ -> False; GT__ -> True } - _tagCmp a b = case (a `cmp` b) of { LT_ -> _LT; EQ_ -> _EQ; GT__ -> _GT } + a <= b = case (a `compare` b) of { LT -> True; EQ -> True; GT -> False } + a < b = case (a `compare` b) of { LT -> True; EQ -> False; GT -> False } + a >= b = case (a `compare` b) of { LT -> False; EQ -> True; GT -> True } + a > b = case (a `compare` b) of { LT -> False; EQ -> False; GT -> True } + compare a b = cmpLit a b \end{code} + + Construction + ~~~~~~~~~~~~ \begin{code} -isNoRepLit (NoRepStr _) = True -- these are not primitive typed! -isNoRepLit (NoRepInteger _ _) = True -isNoRepLit (NoRepRational _ _) = True -isNoRepLit _ = False +mkMachInt, mkMachWord, mkMachInt64, mkMachWord64 :: Integer -> Literal + +mkMachInt x = -- ASSERT2( inIntRange x, integer x ) + -- Not true: you can write out of range Int# literals + -- For example, one can write (intToWord# 0xffff0000) to + -- get a particular Word bit-pattern, and there's no other + -- convenient way to write such literals, which is why we allow it. + MachInt x +mkMachWord x = -- ASSERT2( inWordRange x, integer x ) + MachWord x +mkMachInt64 x = MachInt64 x +mkMachWord64 x = MachWord64 x + +inIntRange, inWordRange :: Integer -> Bool +inIntRange x = x >= tARGET_MIN_INT && x <= tARGET_MAX_INT +inWordRange x = x >= 0 && x <= tARGET_MAX_WORD + +inCharRange :: Int -> Bool +inCharRange c = c >= 0 && c <= tARGET_MAX_CHAR + +isZeroLit :: Literal -> Bool +isZeroLit (MachInt 0) = True +isZeroLit (MachInt64 0) = True +isZeroLit (MachWord 0) = True +isZeroLit (MachWord64 0) = True +isZeroLit (MachFloat 0) = True +isZeroLit (MachDouble 0) = True +isZeroLit other = False +\end{code} + Coercions + ~~~~~~~~~ +\begin{code} +word2IntLit, int2WordLit, + narrow8IntLit, narrow16IntLit, narrow32IntLit, + narrow8WordLit, narrow16WordLit, narrow32WordLit, + char2IntLit, int2CharLit, + float2IntLit, int2FloatLit, double2IntLit, int2DoubleLit, + float2DoubleLit, double2FloatLit + :: Literal -> Literal + +word2IntLit (MachWord w) + | w > tARGET_MAX_INT = MachInt (w - tARGET_MAX_WORD - 1) + | otherwise = MachInt w + +int2WordLit (MachInt i) + | i < 0 = MachWord (1 + tARGET_MAX_WORD + i) -- (-1) ---> tARGET_MAX_WORD + | otherwise = MachWord i + +narrow8IntLit (MachInt i) = MachInt (toInteger (fromInteger i :: Int8)) +narrow16IntLit (MachInt i) = MachInt (toInteger (fromInteger i :: Int16)) +narrow32IntLit (MachInt i) = MachInt (toInteger (fromInteger i :: Int32)) +narrow8WordLit (MachWord w) = MachWord (toInteger (fromInteger w :: Word8)) +narrow16WordLit (MachWord w) = MachWord (toInteger (fromInteger w :: Word16)) +narrow32WordLit (MachWord w) = MachWord (toInteger (fromInteger w :: Word32)) + +char2IntLit (MachChar c) = MachInt (toInteger c) +int2CharLit (MachInt i) = MachChar (fromInteger i) + +float2IntLit (MachFloat f) = MachInt (truncate f) +int2FloatLit (MachInt i) = MachFloat (fromInteger i) + +double2IntLit (MachDouble f) = MachInt (truncate f) +int2DoubleLit (MachInt i) = MachDouble (fromInteger i) + +float2DoubleLit (MachFloat f) = MachDouble f +double2FloatLit (MachDouble d) = MachFloat d + +nullAddrLit :: Literal +nullAddrLit = MachAddr 0 +\end{code} + + Predicates + ~~~~~~~~~~ +\begin{code} isLitLitLit (MachLitLit _ _) = True isLitLitLit _ = False + +maybeLitLit (MachLitLit s t) = Just (s,t) +maybeLitLit _ = Nothing + +litIsDupable :: Literal -> Bool + -- True if code space does not go bad if we duplicate this literal + -- False principally of strings +litIsDupable (MachStr _) = False +litIsDupable other = True + +litSize :: Literal -> Int +-- Used by CoreUnfold.sizeExpr +litSize (MachStr str) = 1 + (lengthFS str `div` 4) + -- Every literal has size at least 1, otherwise + -- f "x" + -- might be too small +litSize _other = 1 \end{code} + Types + ~~~~~ \begin{code} literalType :: Literal -> Type - -literalType (MachChar _) = charPrimTy -literalType (MachStr _) = addrPrimTy -literalType (MachAddr _) = addrPrimTy -literalType (MachInt _ signed) = if signed then intPrimTy else wordPrimTy -literalType (MachFloat _) = floatPrimTy -literalType (MachDouble _) = doublePrimTy -literalType (MachLitLit _ k) = case (getPrimRepInfo k) of { (_,t,_) -> t } -literalType (NoRepInteger _ t) = t -literalType (NoRepRational _ t) = t -literalType (NoRepStr _) = stringTy +literalType (MachChar _) = charPrimTy +literalType (MachStr _) = addrPrimTy +literalType (MachAddr _) = addrPrimTy +literalType (MachInt _) = intPrimTy +literalType (MachWord _) = wordPrimTy +literalType (MachInt64 _) = int64PrimTy +literalType (MachWord64 _) = word64PrimTy +literalType (MachFloat _) = floatPrimTy +literalType (MachDouble _) = doublePrimTy +literalType (MachLabel _) = addrPrimTy +literalType (MachLitLit _ ty) = ty \end{code} \begin{code} literalPrimRep :: Literal -> PrimRep -literalPrimRep (MachChar _) = CharRep -literalPrimRep (MachStr _) = AddrRep -- specifically: "char *" -literalPrimRep (MachAddr _) = AddrRep -literalPrimRep (MachInt _ signed) = if signed then IntRep else WordRep -literalPrimRep (MachFloat _) = FloatRep -literalPrimRep (MachDouble _) = DoubleRep -literalPrimRep (MachLitLit _ k) = k -#ifdef DEBUG -literalPrimRep (NoRepInteger _ _) = panic "literalPrimRep:NoRepInteger" -literalPrimRep (NoRepRational _ _) = panic "literalPrimRep:NoRepRational" -literalPrimRep (NoRepStr _) = panic "literalPrimRep:NoRepString" -#endif +literalPrimRep (MachChar _) = CharRep +literalPrimRep (MachStr _) = AddrRep -- specifically: "char *" +literalPrimRep (MachAddr _) = AddrRep +literalPrimRep (MachInt _) = IntRep +literalPrimRep (MachWord _) = WordRep +literalPrimRep (MachInt64 _) = Int64Rep +literalPrimRep (MachWord64 _) = Word64Rep +literalPrimRep (MachFloat _) = FloatRep +literalPrimRep (MachDouble _) = DoubleRep +literalPrimRep (MachLabel _) = AddrRep +literalPrimRep (MachLitLit _ ty) = typePrimRep ty \end{code} -The boring old output stuff: + + Comparison + ~~~~~~~~~~ \begin{code} -ppCast :: PprStyle -> FAST_STRING -> Pretty -ppCast PprForC cast = ppPStr cast -ppCast _ _ = ppNil +cmpLit (MachChar a) (MachChar b) = a `compare` b +cmpLit (MachStr a) (MachStr b) = a `compare` b +cmpLit (MachAddr a) (MachAddr b) = a `compare` b +cmpLit (MachInt a) (MachInt b) = a `compare` b +cmpLit (MachWord a) (MachWord b) = a `compare` b +cmpLit (MachInt64 a) (MachInt64 b) = a `compare` b +cmpLit (MachWord64 a) (MachWord64 b) = a `compare` b +cmpLit (MachFloat a) (MachFloat b) = a `compare` b +cmpLit (MachDouble a) (MachDouble b) = a `compare` b +cmpLit (MachLabel a) (MachLabel b) = a `compare` b +cmpLit (MachLitLit a b) (MachLitLit c d) = (a `compare` c) `thenCmp` (b `tcCmpType` d) +cmpLit lit1 lit2 | litTag lit1 <# litTag lit2 = LT + | otherwise = GT + +litTag (MachChar _) = _ILIT(1) +litTag (MachStr _) = _ILIT(2) +litTag (MachAddr _) = _ILIT(3) +litTag (MachInt _) = _ILIT(4) +litTag (MachWord _) = _ILIT(5) +litTag (MachInt64 _) = _ILIT(6) +litTag (MachWord64 _) = _ILIT(7) +litTag (MachFloat _) = _ILIT(8) +litTag (MachDouble _) = _ILIT(9) +litTag (MachLabel _) = _ILIT(10) +litTag (MachLitLit _ _) = _ILIT(11) +\end{code} -instance Outputable Literal where - ppr sty (MachChar ch) - = let - char_encoding - = case sty of - PprForC -> charToC ch - PprForAsm _ _ -> charToC ch - PprUnfolding -> charToEasyHaskell ch - _ -> [ch] - in - ppBeside (ppBesides [ppCast sty SLIT("(C_)"), ppChar '\'', ppStr char_encoding, ppChar '\'']) - (if_ubxd sty) - - ppr sty (MachStr s) - = ppBeside (if codeStyle sty - then ppBesides [ppChar '"', ppStr (stringToC (_UNPK_ s)), ppChar '"'] - else ppStr (show (_UNPK_ s))) - (if_ubxd sty) - - ppr sty (MachAddr p) = ppBesides [ppCast sty SLIT("(void*)"), ppInteger p, if_ubxd sty] - ppr sty (MachInt i signed) - | codeStyle sty - && ((signed && (i >= toInteger minInt && i <= toInteger maxInt)) - || (not signed && (i >= toInteger 0 && i <= toInteger maxInt))) - -- ToDo: Think about these ranges! - = ppBesides [ppInteger i, if_ubxd sty] - - | not (codeStyle sty) -- we'd prefer the code to the error message - = ppBesides [ppInteger i, if_ubxd sty] - - | otherwise - = error ("ERROR: Int " ++ show i ++ " out of range [" ++ - show range_min ++ " .. " ++ show maxInt ++ "]\n") - where - range_min = if signed then minInt else 0 - - ppr sty (MachFloat f) = ppBesides [ppCast sty SLIT("(StgFloat)"), ppRational f, if_ubxd sty] - ppr sty (MachDouble d) = ppBesides [ppRational d, if_ubxd sty, if_ubxd sty] - - ppr sty (NoRepInteger i _) - | codeStyle sty = ppInteger i - | ufStyle sty = ppCat [ppStr "_NOREP_I_", ppInteger i] - | otherwise = ppBesides [ppInteger i, ppChar 'I'] - - ppr sty (NoRepRational r _) - | ufStyle sty = ppCat [ppStr "_NOREP_R_", ppInteger (numerator r), ppInteger (denominator r)] - | codeStyle sty = panic "ppr.ForC.NoRepRational" - | otherwise = ppBesides [ppRational r, ppChar 'R'] - - ppr sty (NoRepStr s) - | codeStyle sty = ppBesides [ppStr (show (_UNPK_ s))] - | ufStyle sty = ppCat [ppStr "_NOREP_S_", ppStr (show (_UNPK_ s))] - | otherwise = ppBesides [ppStr (show (_UNPK_ s)), ppChar 'S'] - - ppr sty (MachLitLit s k) - | codeStyle sty = ppPStr s - | ufStyle sty = ppBesides [ppStr "``", ppPStr s, ppStr "'' _K_ ", ppr sty k] - | otherwise = ppBesides [ppStr "``", ppPStr s, ppStr "''"] - -ufStyle PprUnfolding = True -ufStyle _ = False - -if_ubxd sty = if codeStyle sty then ppNil else ppChar '#' - -showLiteral :: PprStyle -> Literal -> String - -showLiteral sty lit = ppShow 80 (ppr sty lit) + Printing + ~~~~~~~~ +* MachX (i.e. unboxed) things are printed unadornded (e.g. 3, 'a', "foo") + exceptions: MachFloat and MachAddr get an initial keyword prefix + +\begin{code} +pprLit lit + = getPprStyle $ \ sty -> + let + code_style = codeStyle sty + in + case lit of + MachChar ch | code_style -> hcat [ptext SLIT("(C_)"), text (show ch)] + | otherwise -> pprHsChar ch + + MachStr s | code_style -> pprFSInCStyle s + | otherwise -> pprHsString s + -- Warning: printing MachStr in code_style assumes it contains + -- only characters '\0'..'\xFF'! + + MachInt i | code_style && i == tARGET_MIN_INT -> parens (integer (i+1) <> text "-1") + -- Avoid a problem whereby gcc interprets + -- the constant minInt as unsigned. + | otherwise -> pprIntVal i + + MachInt64 i | code_style -> pprIntVal i -- Same problem with gcc??? + | otherwise -> ptext SLIT("__int64") <+> integer i + + MachWord w | code_style -> pprHexVal w + | otherwise -> ptext SLIT("__word") <+> integer w + + MachWord64 w | code_style -> pprHexVal w + | otherwise -> ptext SLIT("__word64") <+> integer w + + MachFloat f | code_style -> ptext SLIT("(StgFloat)") <> code_rational f + | otherwise -> ptext SLIT("__float") <+> rational f + + MachDouble d | code_style -> code_rational d + | otherwise -> rational d + + MachAddr p | code_style -> ptext SLIT("(void*)") <> integer p + | otherwise -> ptext SLIT("__addr") <+> integer p + + MachLabel l | code_style -> ptext SLIT("(&") <> ftext l <> char ')' + | otherwise -> ptext SLIT("__label") <+> pprHsString l + + MachLitLit s ty | code_style -> ftext s + | otherwise -> parens (hsep [ptext SLIT("__litlit"), + pprHsString s, + pprParendType ty]) + +-- negative floating literals in code style need parentheses to avoid +-- interacting with surrounding syntax. +code_rational d | d < 0 = parens (rational d) + | otherwise = rational d + +pprIntVal :: Integer -> SDoc +-- Print negative integers with parens to be sure it's unambiguous +pprIntVal i | i < 0 = parens (integer i) + | otherwise = integer i + +pprHexVal :: Integer -> SDoc +-- Print in C hex format: 0x13fa +pprHexVal 0 = ptext SLIT("0x0") +pprHexVal w = ptext SLIT("0x") <> go w + where + go 0 = empty + go w = go quot <> dig + where + (quot,rem) = w `quotRem` 16 + dig | rem < 10 = char (chr (fromInteger rem + ord '0')) + | otherwise = char (chr (fromInteger rem - 10 + ord 'a')) +\end{code} + + +%************************************************************************ +%* * +\subsection{Hashing} +%* * +%************************************************************************ + +Hash values should be zero or a positive integer. No negatives please. +(They mess up the UniqFM for some reason.) + +\begin{code} +hashLiteral :: Literal -> Int +hashLiteral (MachChar c) = c + 1000 -- Keep it out of range of common ints +hashLiteral (MachStr s) = hashFS s +hashLiteral (MachAddr i) = hashInteger i +hashLiteral (MachInt i) = hashInteger i +hashLiteral (MachInt64 i) = hashInteger i +hashLiteral (MachWord i) = hashInteger i +hashLiteral (MachWord64 i) = hashInteger i +hashLiteral (MachFloat r) = hashRational r +hashLiteral (MachDouble r) = hashRational r +hashLiteral (MachLabel s) = hashFS s +hashLiteral (MachLitLit s _) = hashFS s + +hashRational :: Rational -> Int +hashRational r = hashInteger (numerator r) + +hashInteger :: Integer -> Int +hashInteger i = 1 + abs (fromInteger (i `rem` 10000)) + -- The 1+ is to avoid zero, which is a Bad Number + -- since we use * to combine hash values + +hashFS :: FastString -> Int +hashFS s = iBox (uniqueOfFS s) \end{code}