{-| Copyright : (C) 2013-2016, University of Twente, 2016 , Myrtle Software Ltd License : BSD2 (see the file LICENSE) Maintainer : Christiaan Baaij -} {-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE KindSignatures #-} {-# LANGUAGE MagicHash #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE TypeApplications #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE UndecidableInstances #-} {-# LANGUAGE Unsafe #-} {-# OPTIONS_GHC -fplugin GHC.TypeLits.KnownNat.Solver #-} {-# OPTIONS_GHC -fplugin GHC.TypeLits.Normalise #-} {-# OPTIONS_HADDOCK show-extensions not-home #-} module Clash.Sized.Internal.Index ( -- * Datatypes Index (..) -- * Construction , fromSNat -- * Type classes -- ** BitConvert , pack# , unpack# -- ** Eq , eq# , neq# -- ** Ord , lt# , ge# , gt# , le# -- ** Enum (not synthesisable) , enumFrom# , enumFromThen# , enumFromTo# , enumFromThenTo# -- ** Bounded , maxBound# -- ** Num , (+#) , (-#) , (*#) , fromInteger# -- ** ExtendingNum , plus# , minus# , times# -- ** Integral , quot# , rem# , toInteger# -- ** Resize , resize# ) where import Control.DeepSeq (NFData (..)) import Data.Data (Data) import Data.Default (Default (..)) import Data.Proxy (Proxy (..)) import Text.Read (Read (..), ReadPrec) import Language.Haskell.TH (TypeQ, appT, conT, litT, numTyLit, sigE) import Language.Haskell.TH.Syntax (Lift(..)) import GHC.TypeLits (CmpNat, KnownNat, Nat, type (+), type (-), type (*), type (<=), natVal) import GHC.TypeLits.Extra (CLog) import Test.QuickCheck.Arbitrary (Arbitrary (..), CoArbitrary (..), arbitraryBoundedIntegral, coarbitraryIntegral, shrinkIntegral) import Clash.Class.BitPack (BitPack (..)) import Clash.Class.Num (ExtendingNum (..), SaturatingNum (..), SaturationMode (..)) import Clash.Class.Resize (Resize (..)) import {-# SOURCE #-} Clash.Sized.Internal.BitVector (BitVector (BV)) import Clash.Promoted.Nat (SNat, snatToNum, leToPlusKN) import Clash.XException (ShowX (..), showsPrecXWith) -- | Arbitrary-bounded unsigned integer represented by @ceil(log_2(n))@ bits. -- -- Given an upper bound @n@, an 'Index' @n@ number has a range of: [0 .. @n@-1] -- -- >>> maxBound :: Index 8 -- 7 -- >>> minBound :: Index 8 -- 0 -- >>> read (show (maxBound :: Index 8)) :: Index 8 -- 7 -- >>> 1 + 2 :: Index 8 -- 3 -- >>> 2 + 6 :: Index 8 -- *** Exception: Clash.Sized.Index: result 8 is out of bounds: [0..7] -- ... -- >>> 1 - 3 :: Index 8 -- *** Exception: Clash.Sized.Index: result -2 is out of bounds: [0..7] -- ... -- >>> 2 * 3 :: Index 8 -- 6 -- >>> 2 * 4 :: Index 8 -- *** Exception: Clash.Sized.Index: result 8 is out of bounds: [0..7] -- ... newtype Index (n :: Nat) = -- | The constructor, 'I', and the field, 'unsafeToInteger', are not -- synthesisable. I { unsafeToInteger :: Integer } deriving Data instance NFData (Index n) where rnf (I i) = rnf i `seq` () {-# NOINLINE rnf #-} -- NOINLINE is needed so that Clash doesn't trip on the "Index ~# Integer" -- coercion instance KnownNat n => BitPack (Index n) where type BitSize (Index n) = CLog 2 n pack = pack# unpack = unpack# -- | Safely convert an `SNat` value to an `Index` fromSNat :: (KnownNat m, CmpNat n m ~ 'LT) => SNat n -> Index m fromSNat = snatToNum {-# NOINLINE pack# #-} pack# :: Index n -> BitVector (CLog 2 n) pack# (I i) = BV i {-# NOINLINE unpack# #-} unpack# :: KnownNat n => BitVector (CLog 2 n) -> Index n unpack# (BV i) = fromInteger_INLINE i instance Eq (Index n) where (==) = eq# (/=) = neq# {-# NOINLINE eq# #-} eq# :: (Index n) -> (Index n) -> Bool (I n) `eq#` (I m) = n == m {-# NOINLINE neq# #-} neq# :: (Index n) -> (Index n) -> Bool (I n) `neq#` (I m) = n /= m instance Ord (Index n) where (<) = lt# (>=) = ge# (>) = gt# (<=) = le# lt#,ge#,gt#,le# :: Index n -> Index n -> Bool {-# NOINLINE lt# #-} lt# (I n) (I m) = n < m {-# NOINLINE ge# #-} ge# (I n) (I m) = n >= m {-# NOINLINE gt# #-} gt# (I n) (I m) = n > m {-# NOINLINE le# #-} le# (I n) (I m) = n <= m -- | The functions: 'enumFrom', 'enumFromThen', 'enumFromTo', and -- 'enumFromThenTo', are not synthesisable. instance KnownNat n => Enum (Index n) where succ = (+# fromInteger# 1) pred = (-# fromInteger# 1) toEnum = fromInteger# . toInteger fromEnum = fromEnum . toInteger# enumFrom = enumFrom# enumFromThen = enumFromThen# enumFromTo = enumFromTo# enumFromThenTo = enumFromThenTo# {-# NOINLINE enumFrom# #-} {-# NOINLINE enumFromThen# #-} {-# NOINLINE enumFromTo# #-} {-# NOINLINE enumFromThenTo# #-} enumFrom# :: KnownNat n => Index n -> [Index n] enumFromThen# :: KnownNat n => Index n -> Index n -> [Index n] enumFromTo# :: Index n -> Index n -> [Index n] enumFromThenTo# :: Index n -> Index n -> Index n -> [Index n] enumFrom# x = map fromInteger_INLINE [unsafeToInteger x ..] enumFromThen# x y = map fromInteger_INLINE [unsafeToInteger x, unsafeToInteger y ..] enumFromTo# x y = map I [unsafeToInteger x .. unsafeToInteger y] enumFromThenTo# x1 x2 y = map I [unsafeToInteger x1, unsafeToInteger x2 .. unsafeToInteger y] instance KnownNat n => Bounded (Index n) where minBound = fromInteger# 0 maxBound = maxBound# {-# NOINLINE maxBound# #-} maxBound# :: KnownNat n => Index n maxBound# = let res = fromInteger_INLINE (natVal res - 1) in res -- | Operators report an error on overflow and underflow instance KnownNat n => Num (Index n) where (+) = (+#) (-) = (-#) (*) = (*#) negate = (maxBound# -#) abs = id signum i = if i == 0 then 0 else 1 fromInteger = fromInteger# (+#),(-#),(*#) :: KnownNat n => Index n -> Index n -> Index n {-# NOINLINE (+#) #-} (+#) (I a) (I b) = fromInteger_INLINE $ a + b {-# NOINLINE (-#) #-} (-#) (I a) (I b) = fromInteger_INLINE $ a - b {-# NOINLINE (*#) #-} (*#) (I a) (I b) = fromInteger_INLINE $ a * b fromInteger# :: KnownNat n => Integer -> Index n {-# NOINLINE fromInteger# #-} fromInteger# = fromInteger_INLINE {-# INLINE fromInteger_INLINE #-} fromInteger_INLINE :: forall n . KnownNat n => Integer -> Index n fromInteger_INLINE i = bound `seq` if i > (-1) && i < bound then I i else err where bound = natVal (Proxy @n) err = error ("Clash.Sized.Index: result " ++ show i ++ " is out of bounds: [0.." ++ show (bound - 1) ++ "]") instance ExtendingNum (Index m) (Index n) where type AResult (Index m) (Index n) = Index (m + n - 1) plus = plus# minus = minus# type MResult (Index m) (Index n) = Index (((m - 1) * (n - 1)) + 1) times = times# plus#, minus# :: Index m -> Index n -> Index (m + n - 1) {-# NOINLINE plus# #-} plus# (I a) (I b) = I (a + b) {-# NOINLINE minus# #-} minus# (I a) (I b) = let z = a - b err = error ("Clash.Sized.Index.minus: result " ++ show z ++ " is smaller than 0") res = if z < 0 then err else I z in res {-# NOINLINE times# #-} times# :: Index m -> Index n -> Index (((m - 1) * (n - 1)) + 1) times# (I a) (I b) = I (a * b) instance (KnownNat n, 1 <= n) => SaturatingNum (Index n) where satPlus SatWrap a b = leToPlusKN @1 a $ \a' -> leToPlusKN @1 b $ \b' -> case plus# a' b' of z | let m = fromInteger# (natVal (Proxy @ n)) , z >= m -> resize# (z - m) z -> resize# z satPlus SatZero a b = leToPlusKN @1 a $ \a' -> leToPlusKN @1 b $ \b' -> case plus# a' b' of z | let m = fromInteger# (natVal (Proxy @ n)) , z >= m -> fromInteger# 0 z -> resize# z satPlus _ a b = leToPlusKN @1 a $ \a' -> leToPlusKN @1 b $ \b' -> case plus# a' b' of z | let m = fromInteger# (natVal (Proxy @ n)) , z >= m -> maxBound# z -> resize# z satMin SatWrap a b = if lt# a b then maxBound -# (b -# a) +# 1 else a -# b satMin _ a b = if lt# a b then fromInteger# 0 else a -# b satMult SatWrap a b = leToPlusKN @1 a $ \a' -> leToPlusKN @1 b $ \b' -> case times# a' b' of z | let m = fromInteger# (natVal (Proxy @ n)) , z >= m -> resize# (z - m) z -> resize# z satMult SatZero a b = leToPlusKN @1 a $ \a' -> leToPlusKN @1 b $ \b' -> case times# a' b' of z | let m = fromInteger# (natVal (Proxy @ n)) , z >= m -> fromInteger# 0 z -> resize# z satMult _ a b = leToPlusKN @1 a $ \a' -> leToPlusKN @1 b $ \b' -> case times# a' b' of z | let m = fromInteger# (natVal (Proxy @ n)) , z >= m -> maxBound# z -> resize# z instance KnownNat n => Real (Index n) where toRational = toRational . toInteger# instance KnownNat n => Integral (Index n) where quot = quot# rem = rem# div = quot# mod = rem# quotRem n d = (n `quot#` d,n `rem#` d) divMod n d = (n `quot#` d,n `rem#` d) toInteger = toInteger# quot#,rem# :: Index n -> Index n -> Index n {-# NOINLINE quot# #-} (I a) `quot#` (I b) = I (a `div` b) {-# NOINLINE rem# #-} (I a) `rem#` (I b) = I (a `rem` b) {-# NOINLINE toInteger# #-} toInteger# :: Index n -> Integer toInteger# (I n) = n instance Resize Index where resize = resize# zeroExtend = extend truncateB = resize# resize# :: KnownNat m => Index n -> Index m resize# (I i) = fromInteger_INLINE i {-# NOINLINE resize# #-} instance KnownNat n => Lift (Index n) where lift u@(I i) = sigE [| fromInteger# i |] (decIndex (natVal u)) {-# NOINLINE lift #-} decIndex :: Integer -> TypeQ decIndex n = appT (conT ''Index) (litT $ numTyLit n) instance Show (Index n) where show (I i) = show i {-# NOINLINE show #-} instance ShowX (Index n) where showsPrecX = showsPrecXWith showsPrec -- | None of the 'Read' class' methods are synthesisable. instance KnownNat n => Read (Index n) where readPrec = fromIntegral <$> (readPrec :: ReadPrec Word) instance KnownNat n => Default (Index n) where def = fromInteger# 0 instance KnownNat n => Arbitrary (Index n) where arbitrary = arbitraryBoundedIntegral shrink = shrinkIndex shrinkIndex :: KnownNat n => Index n -> [Index n] shrinkIndex x | natVal x < 3 = case toInteger x of 1 -> [0] _ -> [] -- 'shrinkIntegral' uses "`quot` 2", which for 'Index' types with -- an upper bound less than 2 results in an error. | otherwise = shrinkIntegral x instance KnownNat n => CoArbitrary (Index n) where coarbitrary = coarbitraryIntegral