\begin{code}
#include "MachDeps.h"
#if SIZEOF_HSWORD == 4
#define DIGITS 9
#define BASE 1000000000
#elif SIZEOF_HSWORD == 8
#define DIGITS 18
#define BASE 1000000000000000000
#else
#error Please define DIGITS and BASE
#endif
module GHC.Num (module GHC.Num, module GHC.Integer) where
import GHC.Base
import GHC.Enum
import GHC.Show
import GHC.Integer
infixl 7 *
infixl 6 +,
default ()
\end{code}
%*********************************************************
%* *
\subsection{Standard numeric class}
%* *
%*********************************************************
\begin{code}
class (Eq a, Show a) => Num a where
(+), (), (*) :: a -> a -> a
negate :: a -> a
abs :: a -> a
signum :: a -> a
fromInteger :: Integer -> a
x y = x + negate y
negate x = 0 x
subtract :: (Num a) => a -> a -> a
subtract x y = y x
\end{code}
%*********************************************************
%* *
\subsection{Instances for @Int@}
%* *
%*********************************************************
\begin{code}
instance Num Int where
(+) = plusInt
() = minusInt
negate = negateInt
(*) = timesInt
abs n = if n `geInt` 0 then n else negateInt n
signum n | n `ltInt` 0 = negateInt 1
| n `eqInt` 0 = 0
| otherwise = 1
fromInteger i = I# (toInt# i)
quotRemInt :: Int -> Int -> (Int, Int)
quotRemInt a@(I# _) b@(I# _) = (a `quotInt` b, a `remInt` b)
divModInt :: Int -> Int -> (Int, Int)
divModInt x@(I# _) y@(I# _) = (x `divInt` y, x `modInt` y)
\end{code}
%*********************************************************
%* *
\subsection{The @Integer@ instances for @Eq@, @Ord@}
%* *
%*********************************************************
\begin{code}
instance Eq Integer where
(==) = eqInteger
(/=) = neqInteger
instance Ord Integer where
(<=) = leInteger
(>) = gtInteger
(<) = ltInteger
(>=) = geInteger
compare = compareInteger
\end{code}
%*********************************************************
%* *
\subsection{The @Integer@ instances for @Show@}
%* *
%*********************************************************
\begin{code}
instance Show Integer where
showsPrec p n r
| p > 6 && n < 0 = '(' : integerToString n (')' : r)
| otherwise = integerToString n r
showList = showList__ (showsPrec 0)
integerToString :: Integer -> String -> String
integerToString n0 cs0
| n0 < 0 = '-' : integerToString' ( n0) cs0
| otherwise = integerToString' n0 cs0
where
integerToString' :: Integer -> String -> String
integerToString' n cs
| n < BASE = jhead (fromInteger n) cs
| otherwise = jprinth (jsplitf (BASE*BASE) n) cs
jsplitf :: Integer -> Integer -> [Integer]
jsplitf p n
| p > n = [n]
| otherwise = jsplith p (jsplitf (p*p) n)
jsplith :: Integer -> [Integer] -> [Integer]
jsplith p (n:ns) =
case n `quotRemInteger` p of
(# q, r #) ->
if q > 0 then q : r : jsplitb p ns
else r : jsplitb p ns
jsplith _ [] = error "jsplith: []"
jsplitb :: Integer -> [Integer] -> [Integer]
jsplitb _ [] = []
jsplitb p (n:ns) = case n `quotRemInteger` p of
(# q, r #) ->
q : r : jsplitb p ns
jprinth :: [Integer] -> String -> String
jprinth (n:ns) cs =
case n `quotRemInteger` BASE of
(# q', r' #) ->
let q = fromInteger q'
r = fromInteger r'
in if q > 0 then jhead q $ jblock r $ jprintb ns cs
else jhead r $ jprintb ns cs
jprinth [] _ = error "jprinth []"
jprintb :: [Integer] -> String -> String
jprintb [] cs = cs
jprintb (n:ns) cs = case n `quotRemInteger` BASE of
(# q', r' #) ->
let q = fromInteger q'
r = fromInteger r'
in jblock q $ jblock r $ jprintb ns cs
jhead :: Int -> String -> String
jhead n cs
| n < 10 = case unsafeChr (ord '0' + n) of
c@(C# _) -> c : cs
| otherwise = case unsafeChr (ord '0' + r) of
c@(C# _) -> jhead q (c : cs)
where
(q, r) = n `quotRemInt` 10
jblock = jblock' DIGITS
jblock' :: Int -> Int -> String -> String
jblock' d n cs
| d == 1 = case unsafeChr (ord '0' + n) of
c@(C# _) -> c : cs
| otherwise = case unsafeChr (ord '0' + r) of
c@(C# _) -> jblock' (d 1) q (c : cs)
where
(q, r) = n `quotRemInt` 10
\end{code}
%*********************************************************
%* *
\subsection{The @Integer@ instances for @Num@}
%* *
%*********************************************************
\begin{code}
instance Num Integer where
(+) = plusInteger
() = minusInteger
(*) = timesInteger
negate = negateInteger
fromInteger x = x
abs = absInteger
signum = signumInteger
\end{code}
%*********************************************************
%* *
\subsection{The @Integer@ instance for @Enum@}
%* *
%*********************************************************
\begin{code}
instance Enum Integer where
succ x = x + 1
pred x = x 1
toEnum (I# n) = smallInteger n
fromEnum n = I# (toInt# n)
enumFrom x = enumDeltaInteger x 1
enumFromThen x y = enumDeltaInteger x (yx)
enumFromTo x lim = enumDeltaToInteger x 1 lim
enumFromThenTo x y lim = enumDeltaToInteger x (yx) lim
enumDeltaIntegerFB :: (Integer -> b -> b) -> Integer -> Integer -> b
enumDeltaIntegerFB c x d = x `seq` (x `c` enumDeltaIntegerFB c (x+d) d)
enumDeltaInteger :: Integer -> Integer -> [Integer]
enumDeltaInteger x d = x `seq` (x : enumDeltaInteger (x+d) d)
enumDeltaToIntegerFB :: (Integer -> a -> a) -> a
-> Integer -> Integer -> Integer -> a
enumDeltaToIntegerFB c n x delta lim
| delta >= 0 = up_fb c n x delta lim
| otherwise = dn_fb c n x delta lim
enumDeltaToInteger :: Integer -> Integer -> Integer -> [Integer]
enumDeltaToInteger x delta lim
| delta >= 0 = up_list x delta lim
| otherwise = dn_list x delta lim
up_fb :: (Integer -> a -> a) -> a -> Integer -> Integer -> Integer -> a
up_fb c n x0 delta lim = go (x0 :: Integer)
where
go x | x > lim = n
| otherwise = x `c` go (x+delta)
dn_fb :: (Integer -> a -> a) -> a -> Integer -> Integer -> Integer -> a
dn_fb c n x0 delta lim = go (x0 :: Integer)
where
go x | x < lim = n
| otherwise = x `c` go (x+delta)
up_list :: Integer -> Integer -> Integer -> [Integer]
up_list x0 delta lim = go (x0 :: Integer)
where
go x | x > lim = []
| otherwise = x : go (x+delta)
dn_list :: Integer -> Integer -> Integer -> [Integer]
dn_list x0 delta lim = go (x0 :: Integer)
where
go x | x < lim = []
| otherwise = x : go (x+delta)
\end{code}