{-# LANGUAGE NoImplicitPrelude #-} {-# OPTIONS_GHC -fno-warn-orphans #-} {- Rationale for -fno-warn-orphans: * The orphan instances can't be put into Numeric.NonNegative.Wrapper since that's in another package. * We had to spread the instance declarations over the modules defining the typeclasses instantiated. Do we want that? -} {- | Copyright : (c) Henning Thielemann 2007 Maintainer : haskell@henning-thielemann.de Stability : stable Portability : Haskell 98 A type for non-negative numbers. It performs a run-time check at construction time (i.e. at run-time) and is a member of the non-negative number type class 'Numeric.NonNegative.Class.C'. -} 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 Test.QuickCheck (Arbitrary(arbitrary)) import qualified Number.Ratio as R import qualified Prelude as P import NumericPrelude.Base import Data.Tuple.HT (mapSnd, mapPair, ) import NumericPrelude.Numeric hiding (Int, Integer, Float, Double, Rational, ) {- | Convert a number to a non-negative number. If a negative number is given, an error is raised. -} fromNumber :: (Ord a, Additive.C a) => a -> T a fromNumber = fromNumberMsg "fromNumber" fromNumberMsg :: (Ord a, Additive.C a) => String {- ^ name of the calling function to be used in the error message -} -> 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) {- | Convert a number to a non-negative number. A negative number will be replaced by zero. Use this function with care since it may hide bugs. -} fromNumberClip :: (Ord a, Additive.C a) => a -> T a fromNumberClip = fromNumberUnsafe . max zero {- | Results are not checked for positivity. -} 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 {- | Results are not checked for positivity. -} 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) -- mconcat = fromNumberUnsafe . sum . map toNumber 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 {- already defined in the imported module instance (Ord a, Additive.C a, Enum a) => Enum (T a) where toEnum = fromNumberWrap "toEnum" . toEnum fromEnum = fromEnum . toNumber instance (Ord a, Additive.C a, Bounded a) => Bounded (T a) where minBound = fromNumberClip minBound maxBound = fromNumberWrap "maxBound" maxBound instance (Additive.C a, Arbitrary a) => Arbitrary (T a) where arbitrary = liftM (fromNumberUnsafe . abs) arbitrary -} 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 (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 {- legacy instances already defined in non-negative package -}