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{-# LANGUAGE DataKinds #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE TypeApplications #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE UndecidableInstances #-}
{-# OPTIONS_GHC -fplugin GHC.TypeLits.KnownNat.Solver #-}
module Data.Nat where
import Data.Proxy
import Numeric.Natural
import qualified GHC.TypeLits as G
-- | Evidence for the constraint @c a@.
data Dict c a where
Dict :: c a => Dict c a
-- | A peano natural number. Intended to be used at the type level.
data Nat = Z | S Nat
deriving (Show)
-- | Singleton for a 'Nat'.
data SNat n where
SZ :: SNat Z
SS :: SNat n -> SNat (S n)
deriving instance Show (SNat n)
-- | A singleton 'SNat' corresponding to @n@.
class KnownNat n where knownNat :: SNat n
instance KnownNat Z where knownNat = SZ
instance KnownNat n => KnownNat (S n) where knownNat = SS knownNat
-- | Convert a 'Nat' to a normal number.
unNat :: Nat -> Natural
unNat Z = 0
unNat (S n) = 1 + unNat n
-- | Convert an 'SNat' to a normal number.
unSNat :: SNat n -> Natural
unSNat SZ = 0
unSNat (SS n) = 1 + unSNat n
-- | Convert an 'SNat' to an integer.
unSNat' :: SNat n -> Int
unSNat' = fromIntegral . unSNat
-- | A 'KnownNat' dictionary is just a singleton natural, so we can create
-- evidence of 'KnownNat' given an 'SNat'.
snatKnown :: SNat n -> Dict KnownNat n
snatKnown SZ = Dict
snatKnown (SS n) | Dict <- snatKnown n = Dict
-- | Add two 'Nat's
type family n + m where
Z + m = m
S n + m = S (n + m)
-- | Convert a 'Nat' to a "GHC.TypeLits" 'G.Nat'.
type family GNat n where
GNat Z = 0
GNat (S n) = 1 G.+ GNat n
-- | If an inductive 'Nat' is known, then the corresponding "GHC.TypeLits"
-- 'G.Nat' is also known.
gknownNat :: KnownNat n => Proxy n -> Dict G.KnownNat (GNat n)
gknownNat (Proxy @n) = go (knownNat @n)
where
go :: SNat m -> Dict G.KnownNat (GNat m)
go SZ = Dict
go (SS n) | Dict <- go n = Dict
-- * Some type-level naturals
type N0 = Z
type N1 = S N0
type N2 = S N1
type N3 = S N2
type N4 = S N3
type N5 = S N4
type N6 = S N5
type N7 = S N6
type N8 = S N7
type N9 = S N8
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