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|
-- Standard types, classes, and instances
module PreludeCore (
Eq((==), (/=)),
Ord((<), (<=), (>=), (>), max, min),
Num((+), (-), (*), negate, abs, signum, fromInteger),
Integral(quot, rem, div, mod, quotRem, divMod, even, odd, toInteger),
Fractional((/), recip, fromRational),
Floating(pi, exp, log, sqrt, (**), logBase,
sin, cos, tan, asin, acos, atan,
sinh, cosh, tanh, asinh, acosh, atanh),
Real(toRational),
RealFrac(properFraction, truncate, round, ceiling, floor),
RealFloat(floatRadix, floatDigits, floatRange,
encodeFloat, decodeFloat, exponent, significand, scaleFloat),
Ix(range, index, inRange),
Enum(enumFrom, enumFromThen, enumFromTo, enumFromThenTo),
Text(readsPrec, showsPrec, readList, showList), ReadS(..), ShowS(..),
Binary(readBin, showBin),
-- List type: [_]((:), [])
-- Tuple types: (_,_), (_,_,_), etc.
-- Trivial type: ()
Bool(True, False),
Char, Int, Integer, Float, Double, Bin,
Ratio, Complex((:+)), Assoc((:=)), Array,
String(..), Rational(..) ) where
{-#Prelude#-} -- Indicates definitions of compiler prelude symbols
import PreludePrims
import PreludeText
import PreludeRatio(Ratio, Rational(..))
import PreludeComplex(Complex((:+)))
import PreludeArray(Assoc((:=)), Array)
import PreludeIO({-Request, Response,-} IOError,
Dialogue(..), SuccCont(..), StrCont(..),
StrListCont(..), BinCont(..), FailCont(..))
infixr 8 **
infixl 7 *, /, `quot`, `rem`, `div`, `mod`
infixl 6 +, -
infix 4 ==, /=, <, <=, >=, >
infixr 5 :
data Int = MkInt
data Integer = MkInteger
data Float = MkFloat
data Double = MkDouble
data Char = MkChar
data Bin = MkBin
data List a = a : (List a) | Nil deriving (Eq, Ord)
data Arrow a b = MkArrow a b
data UnitType = UnitConstructor deriving (Eq, Ord, Ix, Enum, Binary)
-- Equality and Ordered classes
class Eq a where
(==), (/=) :: a -> a -> Bool
x /= y = not (x == y)
class (Eq a) => Ord a where
(<), (<=), (>=), (>):: a -> a -> Bool
max, min :: a -> a -> a
x < y = x <= y && x /= y
x >= y = y <= x
x > y = y < x
-- The following default methods are appropriate for partial orders.
-- Note that the second guards in each function can be replaced
-- by "otherwise" and the error cases, eliminated for total orders.
max x y | x >= y = x
| y >= x = y
|otherwise = error "max{PreludeCore}: no ordering relation"
min x y | x <= y = x
| y <= x = y
|otherwise = error "min{PreludeCore}: no ordering relation"
-- Numeric classes
class (Eq a, Text a) => Num a where
(+), (-), (*) :: a -> a -> a
negate :: a -> a
abs, signum :: a -> a
fromInteger :: Integer -> a
x - y = x + negate y
class (Num a, Enum a) => Real a where
toRational :: a -> Rational
class (Real a, Ix a) => Integral a where
quot, rem, div, mod :: a -> a -> a
quotRem, divMod :: a -> a -> (a,a)
even, odd :: a -> Bool
toInteger :: a -> Integer
n `quot` d = q where (q,r) = quotRem n d
n `rem` d = r where (q,r) = quotRem n d
n `div` d = q where (q,r) = divMod n d
n `mod` d = r where (q,r) = divMod n d
divMod n d = if signum r == - signum d then (q-1, r+d) else qr
where qr@(q,r) = quotRem n d
even n = n `rem` 2 == 0
odd = not . even
class (Num a) => Fractional a where
(/) :: a -> a -> a
recip :: a -> a
fromRational :: Rational -> a
recip x = 1 / x
class (Fractional a) => Floating a where
pi :: a
exp, log, sqrt :: a -> a
(**), logBase :: a -> a -> a
sin, cos, tan :: a -> a
asin, acos, atan :: a -> a
sinh, cosh, tanh :: a -> a
asinh, acosh, atanh :: a -> a
x ** y = exp (log x * y)
logBase x y = log y / log x
sqrt x = x ** 0.5
tan x = sin x / cos x
tanh x = sinh x / cosh x
class (Real a, Fractional a) => RealFrac a where
properFraction :: (Integral b) => a -> (b,a)
truncate, round :: (Integral b) => a -> b
ceiling, floor :: (Integral b) => a -> b
truncate x = m where (m,_) = properFraction x
round x = let (n,r) = properFraction x
m = if r < 0 then n - 1 else n + 1
in case signum (abs r - 0.5) of
-1 -> n
0 -> if even n then n else m
1 -> m
ceiling x = if r > 0 then n + 1 else n
where (n,r) = properFraction x
floor x = if r < 0 then n - 1 else n
where (n,r) = properFraction x
class (RealFrac a, Floating a) => RealFloat a where
floatRadix :: a -> Integer
floatDigits :: a -> Int
floatRange :: a -> (Int,Int)
decodeFloat :: a -> (Integer,Int)
encodeFloat :: Integer -> Int -> a
exponent :: a -> Int
significand :: a -> a
scaleFloat :: Int -> a -> a
exponent x = if m == 0 then 0 else n + floatDigits x
where (m,n) = decodeFloat x
significand x = encodeFloat m (- floatDigits x)
where (m,_) = decodeFloat x
scaleFloat k x = encodeFloat m (n+k)
where (m,n) = decodeFloat x
-- Index and Enumeration classes
class (Ord a, Text a) => Ix a where -- This is a Yale modification
range :: (a,a) -> [a]
index :: (a,a) -> a -> Int
inRange :: (a,a) -> a -> Bool
class (Ord a) => Enum a where
enumFrom :: a -> [a] -- [n..]
enumFromThen :: a -> a -> [a] -- [n,n'..]
enumFromTo :: a -> a -> [a] -- [n..m]
enumFromThenTo :: a -> a -> a -> [a] -- [n,n'..m]
enumFromTo = defaultEnumFromTo
enumFromThenTo = defaultEnumFromThenTo
defaultEnumFromTo n m = takeWhile (<= m) (enumFrom n)
defaultEnumFromThenTo n n' m
= takeWhile (if n' >= n then (<= m) else (>= m))
(enumFromThen n n')
{-# defaultEnumFromTo :: Inline #-}
{-# defaultEnumFromThenTo :: Inline #-}
-- Text class
type ReadS a = String -> [(a,String)]
type ShowS = String -> String
class Text a where
readsPrec :: Int -> ReadS a
showsPrec :: Int -> a -> ShowS
readList :: ReadS [a]
showList :: [a] -> ShowS
readList = readParen False (\r -> [pr | ("[",s) <- lex r,
pr <- readl s])
where readl s = [([],t) | ("]",t) <- lex s] ++
[(x:xs,u) | (x,t) <- reads s,
(xs,u) <- readl' t]
readl' s = [([],t) | ("]",t) <- lex s] ++
[(x:xs,v) | (",",t) <- lex s,
(x,u) <- reads t,
(xs,v) <- readl' u]
showList [] = showString "[]"
showList (x:xs)
= showChar '[' . shows x . showl xs
where showl [] = showChar ']'
showl (x:xs) = showString ", " . shows x . showl xs
-- Binary class
class Binary a where
readBin :: Bin -> (a,Bin)
showBin :: a -> Bin -> Bin
-- Trivial type
-- data () = () deriving (Eq, Ord, Ix, Enum, Binary)
instance Text () where
readsPrec p = readParen False
(\r -> [((),t) | ("(",s) <- lex r,
(")",t) <- lex s ] )
showsPrec p () = showString "()"
-- Binary type
instance Text Bin where
readsPrec p s = error "readsPrec{PreludeText}: Cannot read Bin."
showsPrec p b = showString "<<Bin>>"
-- Boolean type
data Bool = False | True deriving (Eq, Ord, Ix, Enum, Text, Binary)
-- Character type
instance Eq Char where
(==) = primEqChar
(/=) = primNeqChar
instance Ord Char where
(<) = primLsChar
(<=) = primLeChar
(>) = primGtChar
(>=) = primGeChar
instance Ix Char where
range (c,c') = [c..c']
index b@(c,c') ci
| inRange b ci = ord ci - ord c
| otherwise = error "index{PreludeCore}: Index out of range."
inRange (c,c') ci = ord c <= i && i <= ord c'
where i = ord ci
{-# range :: Inline #-}
instance Enum Char where
enumFrom = charEnumFrom
enumFromThen = charEnumFromThen
enumFromTo = defaultEnumFromTo
enumFromThenTo = defaultEnumFromThenTo
{-# enumFrom :: Inline #-}
{-# enumFromThen :: Inline #-}
{-# enumFromTo :: Inline #-}
{-# enumFromThenTo :: Inline #-}
charEnumFrom c = map chr [ord c .. ord maxChar]
charEnumFromThen c c' = map chr [ord c, ord c' .. ord lastChar]
where lastChar = if c' < c then minChar else maxChar
{-# charEnumFrom :: Inline #-}
{-# charEnumFromThen :: Inline #-}
instance Text Char where
readsPrec p = readParen False
(\r -> [(c,t) | ('\'':s,t)<- lex r,
(c,_) <- readLitChar s])
showsPrec p '\'' = showString "'\\''"
showsPrec p c = showChar '\'' . showLitChar c . showChar '\''
readList = readParen False (\r -> [(l,t) | ('"':s, t) <- lex r,
(l,_) <- readl s ])
where readl ('"':s) = [("",s)]
readl ('\\':'&':s) = readl s
readl s = [(c:cs,u) | (c ,t) <- readLitChar s,
(cs,u) <- readl t ]
showList cs = showChar '"' . showl cs
where showl "" = showChar '"'
showl ('"':cs) = showString "\\\"" . showl cs
showl (c:cs) = showLitChar c . showl cs
type String = [Char]
-- Standard Integral types
instance Eq Int where
(==) = primEqInt
(/=) = primNeqInt
instance Eq Integer where
(==) = primEqInteger
(/=) = primNeqInteger
instance Ord Int where
(<) = primLsInt
(<=) = primLeInt
(>) = primGtInt
(>=) = primGeInt
max = primIntMax
min = primIntMin
instance Ord Integer where
(<) = primLsInteger
(<=) = primLeInteger
(>) = primGtInteger
(>=) = primGeInteger
max = primIntegerMax
min = primIntegerMin
instance Num Int where
(+) = primPlusInt
(-) = primMinusInt
negate = primNegInt
(*) = primMulInt
abs = primAbsInt
signum = signumReal
fromInteger = primIntegerToInt
instance Num Integer where
(+) = primPlusInteger
(-) = primMinusInteger
negate = primNegInteger
(*) = primMulInteger
abs = primAbsInteger
signum = signumReal
fromInteger x = x
signumReal x | x == 0 = 0
| x > 0 = 1
| otherwise = -1
instance Real Int where
toRational x = toInteger x % 1
instance Real Integer where
toRational x = x % 1
instance Integral Int where
quotRem = primQuotRemInt
toInteger = primIntToInteger
instance Integral Integer where
quotRem = primQuotRemInteger
toInteger x = x
instance Ix Int where
range (m,n) = [m..n]
index b@(m,n) i
| inRange b i = i - m
| otherwise = error "index{PreludeCore}: Index out of range."
inRange (m,n) i = m <= i && i <= n
{-# range :: Inline #-}
instance Ix Integer where
range (m,n) = [m..n]
index b@(m,n) i
| inRange b i = fromInteger (i - m)
| otherwise = error "index{PreludeCore}: Index out of range."
inRange (m,n) i = m <= i && i <= n
{-# range :: Inline #-}
instance Enum Int where
enumFrom = numericEnumFrom
enumFromThen = numericEnumFromThen
enumFromTo = defaultEnumFromTo
enumFromThenTo = defaultEnumFromThenTo
{-# enumFrom :: Inline #-}
{-# enumFromThen :: Inline #-}
{-# enumFromTo :: Inline #-}
{-# enumFromThenTo :: Inline #-}
instance Enum Integer where
enumFrom = numericEnumFrom
enumFromThen = numericEnumFromThen
enumFromTo = defaultEnumFromTo
enumFromThenTo = defaultEnumFromThenTo
{-# enumFrom :: Inline #-}
{-# enumFromThen :: Inline #-}
{-# enumFromTo :: Inline #-}
{-# enumFromThenTo :: Inline #-}
numericEnumFrom :: (Real a) => a -> [a]
numericEnumFromThen :: (Real a) => a -> a -> [a]
numericEnumFrom = iterate (+1)
numericEnumFromThen n m = iterate (+(m-n)) n
{-# numericEnumFrom :: Inline #-}
{-# numericEnumFromThen :: Inline #-}
instance Text Int where
readsPrec p = readSigned readDec
showsPrec = showSigned showInt
instance Text Integer where
readsPrec p = readSigned readDec
showsPrec = showSigned showInt
-- Standard Floating types
instance Eq Float where
(==) = primEqFloat
(/=) = primNeqFloat
instance Eq Double where
(==) = primEqDouble
(/=) = primNeqDouble
instance Ord Float where
(<) = primLsFloat
(<=) = primLeFloat
(>) = primGtFloat
(>=) = primGeFloat
max = primFloatMax
min = primFloatMin
instance Ord Double where
(<) = primLsDouble
(<=) = primLeDouble
(>) = primGtDouble
(>=) = primGeDouble
max = primDoubleMax
min = primDoubleMax
instance Num Float where
(+) = primPlusFloat
(-) = primMinusFloat
negate = primNegFloat
(*) = primMulFloat
abs = primAbsFloat
signum = signumReal
fromInteger n = encodeFloat n 0
instance Num Double where
(+) = primPlusDouble
(-) = primMinusDouble
negate = primNegDouble
(*) = primMulDouble
abs = primAbsDouble
signum = signumReal
fromInteger n = encodeFloat n 0
instance Real Float where
toRational = primFloatToRational
instance Real Double where
toRational = primDoubleToRational
-- realFloatToRational x = (m%1)*(b%1)^^n
-- where (m,n) = decodeFloat x
-- b = floatRadix x
instance Fractional Float where
(/) = primDivFloat
fromRational = primRationalToFloat
-- fromRational = rationalToRealFloat
instance Fractional Double where
(/) = primDivDouble
fromRational = primRationalToDouble
-- fromRational = rationalToRealFloat
-- rationalToRealFloat x = x'
-- where x' = f e
-- f e = if e' == e then y else f e'
-- where y = encodeFloat (round (x * (1%b)^^e)) e
-- (_,e') = decodeFloat y
-- (_,e) = decodeFloat (fromInteger (numerator x) `asTypeOf` x'
-- / fromInteger (denominator x))
-- b = floatRadix x'
instance Floating Float where
pi = primPiFloat
exp = primExpFloat
log = primLogFloat
sqrt = primSqrtFloat
sin = primSinFloat
cos = primCosFloat
tan = primTanFloat
asin = primAsinFloat
acos = primAcosFloat
atan = primAtanFloat
sinh = primSinhFloat
cosh = primCoshFloat
tanh = primTanhFloat
asinh = primAsinhFloat
acosh = primAcoshFloat
atanh = primAtanhFloat
instance Floating Double where
pi = primPiDouble
exp = primExpDouble
log = primLogDouble
sqrt = primSqrtDouble
sin = primSinDouble
cos = primCosDouble
tan = primTanDouble
asin = primAsinDouble
acos = primAcosDouble
atan = primAtanDouble
sinh = primSinhDouble
cosh = primCoshDouble
tanh = primTanhDouble
asinh = primAsinhDouble
acosh = primAcoshDouble
atanh = primAtanhDouble
instance RealFrac Float where
properFraction = floatProperFraction
instance RealFrac Double where
properFraction = floatProperFraction
floatProperFraction x
| n >= 0 = (fromInteger m * fromInteger b ^ n, 0)
| otherwise = (fromInteger w, encodeFloat r n)
where (m,n) = decodeFloat x
b = floatRadix x
(w,r) = quotRem m (b^(-n))
instance RealFloat Float where
floatRadix _ = primFloatRadix
floatDigits _ = primFloatDigits
floatRange _ = (primFloatMinExp,primFloatMaxExp)
decodeFloat = primDecodeFloat
encodeFloat = primEncodeFloat
instance RealFloat Double where
floatRadix _ = primDoubleRadix
floatDigits _ = primDoubleDigits
floatRange _ = (primDoubleMinExp,primDoubleMaxExp)
decodeFloat = primDecodeDouble
encodeFloat = primEncodeDouble
instance Enum Float where
enumFrom = numericEnumFrom
enumFromThen = numericEnumFromThen
enumFromTo = defaultEnumFromTo
enumFromThenTo = defaultEnumFromThenTo
{-# enumFrom :: Inline #-}
{-# enumFromThen :: Inline #-}
{-# enumFromTo :: Inline #-}
{-# enumFromThenTo :: Inline #-}
instance Enum Double where
enumFrom = numericEnumFrom
enumFromThen = numericEnumFromThen
enumFromTo = defaultEnumFromTo
enumFromThenTo = defaultEnumFromThenTo
{-# enumFrom :: Inline #-}
{-# enumFromThen :: Inline #-}
{-# enumFromTo :: Inline #-}
{-# enumFromThenTo :: Inline #-}
instance Text Float where
readsPrec p = readSigned readFloat
showsPrec = showSigned showFloat
instance Text Double where
readsPrec p = readSigned readFloat
showsPrec = showSigned showFloat
-- Lists
-- data [a] = [] | a : [a] deriving (Eq, Ord, Binary)
instance (Text a) => Text [a] where
readsPrec p = readList
showsPrec p = showList
-- Tuples
-- data (a,b) = (a,b) deriving (Eq, Ord, Ix, Binary)
{-
instance (Text a, Text b) => Text (a,b) where
readsPrec p = readParen False
(\r -> [((x,y), w) | ("(",s) <- lex r,
(x,t) <- reads s,
(",",u) <- lex t,
(y,v) <- reads u,
(")",w) <- lex v ] )
showsPrec p (x,y) = showChar '(' . shows x . showChar ',' .
shows y . showChar ')'
-- et cetera
-}
-- Functions
instance Text (a -> b) where
readsPrec p s = error "readsPrec{PreludeCore}: Cannot read functions."
showsPrec p f = showString "<<function>>"
-- Support for class Bin
instance Binary Int where
showBin i b = primShowBinInt i b
readBin b = primReadBinInt b
instance Binary Integer where
showBin i b = primShowBinInteger i b
readBin b = primReadBinInteger b
instance Binary Float where
showBin f b = primShowBinFloat f b
readBin b = primReadBinFloat b
instance Binary Double where
showBin d b = primShowBinDouble d b
readBin b = primReadBinDouble b
instance Binary Char where
showBin c b = primShowBinInt (ord c) b
readBin b = (chr i,b') where
(i,b') = primReadBinSmallInt b primMaxChar
instance (Binary a) => Binary [a] where
showBin l b = showBin (length l :: Int) (sb1 l b) where
sb1 [] b = b
sb1 (h:t) b = showBin h (sb1 t b)
readBin bin = rbl len bin' where
len :: Int
(len,bin') = readBin bin
rbl 0 b = ([],b)
rbl n b = (h:t,b'') where
(h,b') = readBin b
(t,b'') = rbl (n-1) b'
instance (Ix a, Binary a, Binary b) => Binary (Array a b) where
showBin a = showBin (bounds a) . showBin (elems a)
readBin bin = (listArray b vs, bin'')
where (b,bin') = readBin bin
(vs,bin'') = readBin bin'
{-
instance (Binary a, Binary b) => Binary (a,b) where
showBin (x,y) = (showBin x) . (showBin y)
readBin b = ((x,y),b'') where
(x,b') = readBin b
(y,b'') = readBin b'
instance (Binary a, Binary b, Binary c) => Binary (a,b,c) where
showBin (x,y,z) = (showBin x) . (showBin y) . (showBin z)
readBin b = ((x,y,z),b3) where
(x,b1) = readBin b
(y,b2) = readBin b1
(z,b3) = readBin b2
instance (Binary a, Binary b, Binary c, Binary d) => Binary (a,b,c,d) where
showBin (a,b,c,d) = (showBin a) . (showBin b) . (showBin c) . (showBin d)
readBin b = ((a1,a2,a3,a4),b4) where
(a1,b1) = readBin b
(a2,b2) = readBin b1
(a3,b3) = readBin b2
(a4,b4) = readBin b3
-}
-- Instances for tuples
-- This whole section should be handled in the support code. For now,
-- only tuple instances expliticly provided here are available.
-- Currently provided:
-- 2,3 tuples: all classes (Eq, Ord, Ix, Bin, Text)
-- 4 tuples: Eq, Bin, Text
-- 5, 6 tuples: Text (printing only)
{-
rangeSize :: (Ix a) => (a,a) -> Int
rangeSize (l,u) = index (l,u) u + 1
instance (Eq a1, Eq a2) => Eq (a1,a2) where
(a1,a2) == (z1,z2) = a1==z1 && a2==z2
instance (Ord a1, Ord a2) => Ord (a1,a2) where
(a1,a2) <= (z1,z2) = a1<=z1 || a1==z1 && a2<=z2
(a1,a2) < (z1,z2) = a1<z1 || a1==z1 && a2<z2
instance (Ix a1, Ix a2) => Ix (a1,a2) where
range ((l1,l2),(u1,u2)) = [(i1,i2) | i1 <- range(l1,u1),
i2 <- range(l2,u2)]
index ((l1,l2),(u1,u2)) (i1,i2) =
index (l1,u1) i1 * rangeSize (l2,u2)
+ index (l2,u2) i2
inRange ((l1,l2),(u1,u2)) (i1,i2) =
inRange (l1,u1) i1 && inRange (l2,u2) i2
{- Apprears in Joe's code.
instance (Text a1, Text a2) => Text (a1,a2) where
readsPrec p = readParen False
(\r0 -> [((a1,a2), w) | ("(",r1) <- lex r0,
(a1,r2) <- reads r1,
(",",r3) <- lex r2,
(a2,r4) <- reads r3,
(")",w) <- lex r4 ])
showsPrec p (a1,a2) = showChar '(' . shows a1 . showChar ',' .
shows a2 . showChar ')'
-}
instance (Eq a1, Eq a2, Eq a3) => Eq (a1,a2,a3) where
(a1,a2,a3) == (z1,z2,z3) = a1==z1 && a2==z2 && a3==z3
instance (Ord a1, Ord a2, Ord a3) => Ord (a1,a2,a3) where
(a1,a2,a3) <= (z1,z2,z3) = a1<=z1 || a1==z1 &&
(a2<=z2 || a2==z2 &&
a3<=z3)
(a1,a2,a3) < (z1,z2,z3) = a1<z1 || a1==z1 &&
(a2<z2 || a2==z2 &&
a3<z3)
instance (Ix a1, Ix a2, Ix a3) => Ix (a1,a2,a3) where
range ((l1,l2,l3),(u1,u2,u3)) =
[(i1,i2,i3) | i1 <- range(l1,u1),
i2 <- range(l2,u2),
i3 <- range(l3,u3)]
index ((l1,l2,l3),(u1,u2,u3)) (i1,i2,i3) =
(index (l1,u1) i1 * rangeSize (l2,u2)
+ index (l2,u2) i2 ) * rangeSize (l3,u3)
+ index (l3,u3) i3
inRange ((l1,l2,l3),(u1,u2,u3)) (i1,i2,i3) =
inRange (l1,u1) i1 && inRange (l2,u2) i2 && inRange (l3,u3) i3
instance (Text a1, Text a2, Text a3) => Text (a1,a2,a3) where
readsPrec p = readParen False
(\r0 -> [((a1,a2,a3), w) |
("(",r1) <- lex r0,
(a1,r2) <- reads r1,
(",",r3) <- lex r2,
(a2,r4) <- reads r3,
(",",r5) <- lex r4,
(a3,r6) <- reads r5,
(")",w) <- lex r6 ])
showsPrec p (a1,a2,a3) =
showChar '(' . shows a1 . showChar ',' .
shows a2 . showChar ',' .
shows a3 . showChar ')'
instance (Eq a1, Eq a2, Eq a3, Eq a4) => Eq (a1,a2,a3,a4) where
(a1,a2,a3,a4) == (z1,z2,z3,z4) = a1==z1 && a2==z2 && a3==z3 && a4 == z4
instance (Text a1, Text a2, Text a3, Text a4) => Text (a1,a2,a3,a4) where
readsPrec p = readParen False
(\r0 -> [((a1,a2,a3,a4), w) |
("(",r1) <- lex r0,
(a1,r2) <- reads r1,
(",",r3) <- lex r2,
(a2,r4) <- reads r3,
(",",r5) <- lex r4,
(a3,r6) <- reads r5,
(",",r7) <- lex r6,
(a4,r8) <- reads r7,
(")",w) <- lex r8 ])
showsPrec p (a1,a2,a3,a4) =
showChar '(' . shows a1 . showChar ',' .
shows a2 . showChar ',' .
shows a3 . showChar ',' .
shows a4 . showChar ')'
instance (Text a1, Text a2, Text a3, Text a4, Text a5) =>
Text (a1,a2,a3,a4,a5) where
readsPrec p = error "Read of 5 tuples not implemented"
showsPrec p (a1,a2,a3,a4,a5) =
showChar '(' . shows a1 . showChar ',' .
shows a2 . showChar ',' .
shows a3 . showChar ',' .
shows a4 . showChar ',' .
shows a5 . showChar ')'
instance (Text a1, Text a2, Text a3, Text a4, Text a5, Text a6) =>
Text (a1,a2,a3,a4,a5,a6) where
readsPrec p = error "Read of 6 tuples not implemented"
showsPrec p (a1,a2,a3,a4,a5,a6) =
showChar '(' . shows a1 . showChar ',' .
shows a2 . showChar ',' .
shows a3 . showChar ',' .
shows a4 . showChar ',' .
shows a5 . showChar ',' .
shows a6 . showChar ')'
-}
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