module Number.NonNegative
(T, fromNumber, fromNumberMsg, fromNumberClip, fromNumberUnsafe, toNumber,
NonNegW.Int, NonNegW.Integer, NonNegW.Float, NonNegW.Double,
Ratio, Rational) where
import Numeric.NonNegative.Wrapper
(T, fromNumberUnsafe, toNumber, )
import qualified Numeric.NonNegative.Wrapper as NonNegW
import qualified Algebra.NonNegative as NonNeg
import qualified Algebra.Transcendental as Trans
import qualified Algebra.Algebraic as Algebraic
import qualified Algebra.RealRing as RealRing
import qualified Algebra.Field as Field
import qualified Algebra.RealIntegral as RealIntegral
import qualified Algebra.IntegralDomain as Integral
import qualified Algebra.Absolute as Absolute
import qualified Algebra.Ring as Ring
import qualified Algebra.Additive as Additive
import qualified Algebra.Monoid as Monoid
import qualified Algebra.ZeroTestable as ZeroTestable
import qualified Algebra.ToInteger as ToInteger
import qualified Algebra.ToRational as ToRational
import qualified Number.Ratio as R
import NumericPrelude.Base
import Data.Tuple.HT (mapSnd, mapPair, )
import NumericPrelude.Numeric hiding (Int, Integer, Float, Double, Rational, )
fromNumber :: (Ord a, Additive.C a) =>
a
-> T a
fromNumber = fromNumberMsg "fromNumber"
fromNumberMsg :: (Ord a, Additive.C a) =>
String
-> a
-> T a
fromNumberMsg funcName x =
if x>=zero
then fromNumberUnsafe x
else error (funcName++": negative number")
fromNumberWrap :: (Ord a, Additive.C a) =>
String
-> a
-> T a
fromNumberWrap funcName =
fromNumberMsg ("Number.NonNegative."++funcName)
fromNumberClip :: (Ord a, Additive.C a) =>
a
-> T a
fromNumberClip = fromNumberUnsafe . max zero
lift :: (a -> a) -> (T a -> T a)
lift f = fromNumberUnsafe . f . toNumber
liftWrap :: (Ord a, Additive.C a) => String -> (a -> a) -> (T a -> T a)
liftWrap msg f = fromNumberWrap msg . f . toNumber
lift2 :: (a -> a -> a) -> (T a -> T a -> T a)
lift2 f x y =
fromNumberUnsafe $ f (toNumber x) (toNumber y)
instance ZeroTestable.C a => ZeroTestable.C (T a) where
isZero = isZero . toNumber
instance (Additive.C a) => Monoid.C (T a) where
idt = fromNumberUnsafe Additive.zero
x <*> y = fromNumberUnsafe (toNumber x + toNumber y)
instance (Ord a, Additive.C a) => NonNeg.C (T a) where
split = NonNeg.splitDefault toNumber fromNumberUnsafe
instance (Ord a, Additive.C a) => Additive.C (T a) where
zero = fromNumberUnsafe zero
(+) = lift2 (+)
() = liftWrap "-" . () . toNumber
negate = liftWrap "negate" negate
instance (Ord a, Ring.C a) => Ring.C (T a) where
(*) = lift2 (*)
fromInteger = fromNumberWrap "fromInteger" . fromInteger
instance (Ord a, ToRational.C a) => ToRational.C (T a) where
toRational = ToRational.toRational . toNumber
instance ToInteger.C a => ToInteger.C (T a) where
toInteger = toInteger . toNumber
instance RealIntegral.C a => RealIntegral.C (T a) where
quot = lift2 quot
rem = lift2 rem
quotRem x y =
mapPair
(fromNumberUnsafe, fromNumberUnsafe)
(quotRem (toNumber x) (toNumber y))
instance (Ord a, Integral.C a) => Integral.C (T a) where
div = lift2 div
mod = lift2 mod
divMod x y =
mapPair
(fromNumberUnsafe, fromNumberUnsafe)
(divMod (toNumber x) (toNumber y))
instance (Ord a, Field.C a) => Field.C (T a) where
fromRational' = fromNumberWrap "fromRational" . fromRational'
(/) = lift2 (/)
instance (ZeroTestable.C a, Ord a, Absolute.C a) => Absolute.C (T a) where
abs = lift abs
signum = lift signum
instance (ZeroTestable.C a, RealRing.C a) => RealRing.C (T a) where
splitFraction = mapSnd fromNumberUnsafe . splitFraction . toNumber
truncate = truncate . toNumber
round = round . toNumber
ceiling = ceiling . toNumber
floor = floor . toNumber
instance (Ord a, Algebraic.C a) => Algebraic.C (T a) where
sqrt = lift sqrt
(^/) x r = lift (^/ r) x
instance (Ord a, Trans.C a) => Trans.C (T a) where
pi = fromNumber pi
exp = lift exp
log = liftWrap "log" log
(**) = lift2 (**)
logBase = liftWrap "logBase" . logBase . toNumber
sin = liftWrap "sin" sin
tan = liftWrap "tan" tan
cos = liftWrap "cos" cos
asin = liftWrap "asin" asin
atan = liftWrap "atan" atan
acos = liftWrap "acos" acos
sinh = liftWrap "sinh" sinh
tanh = liftWrap "tanh" tanh
cosh = liftWrap "cosh" cosh
asinh = liftWrap "asinh" asinh
atanh = liftWrap "atanh" atanh
acosh = liftWrap "acosh" acosh
type Ratio a = T (R.T a)
type Rational = T R.Rational