X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Flib%2Fstd%2FPrelBase.lhs;h=86e7dffb5e1bb82f4d0344267f35c2f55d07baaf;hb=9eee6a805af343b8f368c5a05490f27e42e26fb9;hp=70d5d8fe2616d5833e1f96dd9f7b3e1af9feeb2b;hpb=5d25aa0135bf17da82dd27f23f518b513c9252d9;p=ghc-hetmet.git diff --git a/ghc/lib/std/PrelBase.lhs b/ghc/lib/std/PrelBase.lhs index 70d5d8f..86e7dff 100644 --- a/ghc/lib/std/PrelBase.lhs +++ b/ghc/lib/std/PrelBase.lhs @@ -1,5 +1,5 @@ % ----------------------------------------------------------------------------- -% $Id: PrelBase.lhs,v 1.47 2001/04/28 04:44:05 qrczak Exp $ +% $Id: PrelBase.lhs,v 1.49 2001/04/29 11:01:13 qrczak Exp $ % % (c) The University of Glasgow, 1992-2000 % @@ -191,7 +191,7 @@ class Monad m where return :: a -> m a fail :: String -> m a - m >> k = m >>= \_ -> k + m >> k = m >>= \_ -> k fail s = error s \end{code} @@ -207,7 +207,7 @@ data [] a = [] | a : [a] -- do explicitly: deriving (Eq, Ord) -- to avoid weird names like con2tag_[]# -instance (Eq a) => Eq [a] where +instance (Eq a) => Eq [a] where {-# SPECIALISE instance Eq [Char] #-} [] == [] = True (x:xs) == (y:ys) = x == y && xs == ys @@ -215,7 +215,6 @@ instance (Eq a) => Eq [a] where instance (Ord a) => Ord [a] where {-# SPECIALISE instance Ord [Char] #-} - compare [] [] = EQ compare [] (_:_) = LT compare (_:_) [] = GT @@ -322,7 +321,7 @@ mapList f (x:xs) = f x : mapList f xs (++) = append {-# RULES - "++" forall xs ys. (++) xs ys = augment (\c n -> foldr c n xs) ys +"++" forall xs ys. (++) xs ys = augment (\c n -> foldr c n xs) ys #-} append :: [a] -> [a] -> [a] @@ -372,7 +371,7 @@ need (). (We could arrange suck in () only if -fglasgow-exts, but putting it here seems more direct.) \begin{code} -data () = () +data () = () instance Eq () where () == () = True @@ -417,16 +416,15 @@ data Char = C# Char# -- '>' uses compare, and therefore takes two primops instead of one. instance Eq Char where - (C# c1) == (C# c2) = c1 `eqChar#` c2 - (C# c1) /= (C# c2) = c1 `neChar#` c2 + (C# c1) == (C# c2) = c1 `eqChar#` c2 + (C# c1) /= (C# c2) = c1 `neChar#` c2 instance Ord Char where - (C# c1) > (C# c2) = c1 `gtChar#` c2 - (C# c1) >= (C# c2) = c1 `geChar#` c2 - (C# c1) <= (C# c2) = c1 `leChar#` c2 - (C# c1) < (C# c2) = c1 `ltChar#` c2 + (C# c1) > (C# c2) = c1 `gtChar#` c2 + (C# c1) >= (C# c2) = c1 `geChar#` c2 + (C# c1) <= (C# c2) = c1 `leChar#` c2 + (C# c1) < (C# c2) = c1 `ltChar#` c2 -{- XXX {-# RULES "x# `eqChar#` x#" forall x#. eqChar# x# x# = True "x# `neChar#` x#" forall x#. neChar# x# x# = False @@ -435,7 +433,6 @@ instance Ord Char where "x# `leChar#` x#" forall x#. leChar# x# x# = True "x# `ltChar#` x#" forall x#. ltChar# x# x# = False #-} --} chr :: Int -> Char chr (I# i#) | int2Word# i# `leWord#` int2Word# 0x10FFFF# = C# (chr# i#) @@ -482,20 +479,19 @@ instance Eq Int where instance Ord Int where compare = compareInt - - (<) = ltInt - (<=) = leInt - (>=) = geInt - (>) = gtInt + (<) = ltInt + (<=) = leInt + (>=) = geInt + (>) = gtInt compareInt :: Int -> Int -> Ordering -(I# x) `compareInt` (I# y) = compareInt# x y +(I# x#) `compareInt` (I# y#) = compareInt# x# y# compareInt# :: Int# -> Int# -> Ordering compareInt# x# y# - | x# <# y# = LT - | x# ==# y# = EQ - | otherwise = GT + | x# <# y# = LT + | x# ==# y# = EQ + | otherwise = GT \end{code} @@ -619,18 +615,16 @@ plusInt, minusInt, timesInt, quotInt, remInt, divInt, modInt, gcdInt :: Int -> I (I# x) `divInt` (I# y) = I# (x `divInt#` y) (I# x) `modInt` (I# y) = I# (x `modInt#` y) -{- XXX {-# RULES -"x# +# 0#" forall x#. x# +# 0# = x# -"0# +# x#" forall x#. 0# +# x# = x# -"x# -# 0#" forall x#. x# -# 0# = x# -"x# -# x#" forall x#. x# -# x# = 0# -"x# *# 0#" forall x#. x# *# 0# = 0# -"0# *# x#" forall x#. 0# *# x# = 0# -"x# *# 1#" forall x#. x# *# 1# = x# -"1# *# x#" forall x#. 1# *# x# = x# +"x# +# 0#" forall x#. (+#) x# 0# = x# +"0# +# x#" forall x#. (+#) 0# x# = x# +"x# -# 0#" forall x#. (-#) x# 0# = x# +"x# -# x#" forall x#. (-#) x# x# = 0# +"x# *# 0#" forall x#. (*#) x# 0# = 0# +"0# *# x#" forall x#. (*#) 0# x# = 0# +"x# *# 1#" forall x#. (*#) x# 1# = x# +"1# *# x#" forall x#. (*#) 1# x# = x# #-} --} gcdInt (I# a) (I# b) = g a b where g 0# 0# = error "PrelBase.gcdInt: gcd 0 0 is undefined" @@ -654,14 +648,13 @@ gtInt, geInt, eqInt, neInt, ltInt, leInt :: Int -> Int -> Bool (I# x) `ltInt` (I# y) = x <# y (I# x) `leInt` (I# y) = x <=# y -{- XXX {-# RULES -"x# ># x#" forall x#. x# ># x# = False -"x# >=# x#" forall x#. x# >=# x# = True -"x# ==# x#" forall x#. x# ==# x# = True -"x# /=# x#" forall x#. x# /=# x# = False -"x# <# x#" forall x#. x# <# x# = False -"x# <=# x#" forall x#. x# <=# x# = True +"x# ># x#" forall x#. (>#) x# x# = False +"x# >=# x#" forall x#. (>=#) x# x# = True +"x# ==# x#" forall x#. (==#) x# x# = True +"x# /=# x#" forall x#. (/=#) x# x# = False +"x# <# x#" forall x#. (<#) x# x# = False +"x# <=# x#" forall x#. (<=#) x# x# = True #-} #if WORD_SIZE_IN_BYTES == 4 @@ -675,7 +668,6 @@ gtInt, geInt, eqInt, neInt, ltInt, leInt :: Int -> Int -> Bool "int2Word2Int" forall x#. int2Word# (word2Int# x#) = x# "word2Int2Word" forall x#. word2Int# (int2Word# x#) = x# #-} --} \end{code}