{-# LANGUAGE NoImplicitPrelude #-} module Algebra.ToRational where import qualified Algebra.Field as Field import qualified Algebra.Absolute as Absolute import Algebra.Field (fromRational, ) import Algebra.Ring (fromInteger, ) import Number.Ratio (Rational, ) import Data.Int (Int, Int8, Int16, Int32, Int64, ) import Data.Word (Word, Word8, Word16, Word32, Word64, ) import qualified Prelude as P import NumericPrelude.Base import Prelude(Int,Integer,Float,Double) {- | This class allows lossless conversion from any representation of a rational to the fixed 'Rational' type. \"Lossless\" means - don't do any rounding. For rounding see "Algebra.RealRing". With the instances for 'Float' and 'Double' we acknowledge that these types actually represent rationals rather than (approximated) real numbers. However, this contradicts to the 'Algebra.Transcendental' class. Laws that must be satisfied by instances: > fromRational' . toRational === id -} class (Absolute.C a) => C a where -- | Lossless conversion from any representation of a rational to 'Rational' toRational :: a -> Rational instance C Integer where {-# INLINE toRational #-} toRational = fromInteger instance C Float where {-# INLINE toRational #-} toRational = fromRational . P.toRational instance C Double where {-# INLINE toRational #-} toRational = fromRational . P.toRational instance C Int where {-# INLINE toRational #-}; toRational = toRational . P.toInteger instance C Int8 where {-# INLINE toRational #-}; toRational = toRational . P.toInteger instance C Int16 where {-# INLINE toRational #-}; toRational = toRational . P.toInteger instance C Int32 where {-# INLINE toRational #-}; toRational = toRational . P.toInteger instance C Int64 where {-# INLINE toRational #-}; toRational = toRational . P.toInteger instance C Word where {-# INLINE toRational #-}; toRational = toRational . P.toInteger instance C Word8 where {-# INLINE toRational #-}; toRational = toRational . P.toInteger instance C Word16 where {-# INLINE toRational #-}; toRational = toRational . P.toInteger instance C Word32 where {-# INLINE toRational #-}; toRational = toRational . P.toInteger instance C Word64 where {-# INLINE toRational #-}; toRational = toRational . P.toInteger {- | It should hold > realToField = fromRational' . toRational but it should be much more efficient for particular pairs of types, such as converting 'Float' to 'Double'. This achieved by optimizer rules. -} realToField :: (C a, Field.C b) => a -> b realToField = Field.fromRational' . toRational {-# RULES "NP.realToField :: Integer -> Float " realToField = P.realToFrac :: Integer -> Float ; "NP.realToField :: Int -> Float " realToField = P.realToFrac :: Int -> Float ; "NP.realToField :: Int8 -> Float " realToField = P.realToFrac :: Int8 -> Float ; "NP.realToField :: Int16 -> Float " realToField = P.realToFrac :: Int16 -> Float ; "NP.realToField :: Int32 -> Float " realToField = P.realToFrac :: Int32 -> Float ; "NP.realToField :: Int64 -> Float " realToField = P.realToFrac :: Int64 -> Float ; "NP.realToField :: Word -> Float " realToField = P.realToFrac :: Word -> Float ; "NP.realToField :: Word8 -> Float " realToField = P.realToFrac :: Word8 -> Float ; "NP.realToField :: Word16 -> Float " realToField = P.realToFrac :: Word16 -> Float ; "NP.realToField :: Word32 -> Float " realToField = P.realToFrac :: Word32 -> Float ; "NP.realToField :: Word64 -> Float " realToField = P.realToFrac :: Word64 -> Float ; "NP.realToField :: Float -> Float " realToField = P.realToFrac :: Float -> Float ; "NP.realToField :: Double -> Float " realToField = P.realToFrac :: Double -> Float ; "NP.realToField :: Integer -> Double" realToField = P.realToFrac :: Integer -> Double; "NP.realToField :: Int -> Double" realToField = P.realToFrac :: Int -> Double; "NP.realToField :: Int8 -> Double" realToField = P.realToFrac :: Int8 -> Double; "NP.realToField :: Int16 -> Double" realToField = P.realToFrac :: Int16 -> Double; "NP.realToField :: Int32 -> Double" realToField = P.realToFrac :: Int32 -> Double; "NP.realToField :: Int64 -> Double" realToField = P.realToFrac :: Int64 -> Double; "NP.realToField :: Word -> Double" realToField = P.realToFrac :: Word -> Double; "NP.realToField :: Word8 -> Double" realToField = P.realToFrac :: Word8 -> Double; "NP.realToField :: Word16 -> Double" realToField = P.realToFrac :: Word16 -> Double; "NP.realToField :: Word32 -> Double" realToField = P.realToFrac :: Word32 -> Double; "NP.realToField :: Word64 -> Double" realToField = P.realToFrac :: Word64 -> Double; "NP.realToField :: Float -> Double" realToField = P.realToFrac :: Float -> Double; "NP.realToField :: Double -> Double" realToField = P.realToFrac :: Double -> Double; #-}