{-# LANGUAGE Trustworthy #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE KindSignatures #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE UndecidableInstances #-}
{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE MagicHash #-}
module GHC.TypeLits
(
Nat, Symbol
, KnownNat, natVal, natVal'
, KnownSymbol, symbolVal, symbolVal'
, SomeNat(..), SomeSymbol(..)
, someNatVal, someSymbolVal
, sameNat, sameSymbol
, type (<=), type (<=?), type (+), type (*), type (^), type (-)
, CmpNat, CmpSymbol
) where
import GHC.Base(Eq(..), Ord(..), Bool(True,False), Ordering(..), otherwise)
import GHC.Num(Integer)
import GHC.Base(String)
import GHC.Show(Show(..))
import GHC.Read(Read(..))
import GHC.Prim(magicDict, Proxy#)
import Data.Maybe(Maybe(..))
import Data.Proxy (Proxy(..))
import Data.Type.Equality(type (==), (:~:)(Refl))
import Unsafe.Coerce(unsafeCoerce)
data Nat
data Symbol
class KnownNat (n :: Nat) where
natSing :: SNat n
class KnownSymbol (n :: Symbol) where
symbolSing :: SSymbol n
natVal :: forall n proxy. KnownNat n => proxy n -> Integer
natVal _ = case natSing :: SNat n of
SNat x -> x
symbolVal :: forall n proxy. KnownSymbol n => proxy n -> String
symbolVal _ = case symbolSing :: SSymbol n of
SSymbol x -> x
natVal' :: forall n. KnownNat n => Proxy# n -> Integer
natVal' _ = case natSing :: SNat n of
SNat x -> x
symbolVal' :: forall n. KnownSymbol n => Proxy# n -> String
symbolVal' _ = case symbolSing :: SSymbol n of
SSymbol x -> x
data SomeNat = forall n. KnownNat n => SomeNat (Proxy n)
data SomeSymbol = forall n. KnownSymbol n => SomeSymbol (Proxy n)
someNatVal :: Integer -> Maybe SomeNat
someNatVal n
| n >= 0 = Just (withSNat SomeNat (SNat n) Proxy)
| otherwise = Nothing
someSymbolVal :: String -> SomeSymbol
someSymbolVal n = withSSymbol SomeSymbol (SSymbol n) Proxy
instance Eq SomeNat where
SomeNat x == SomeNat y = natVal x == natVal y
instance Ord SomeNat where
compare (SomeNat x) (SomeNat y) = compare (natVal x) (natVal y)
instance Show SomeNat where
showsPrec p (SomeNat x) = showsPrec p (natVal x)
instance Read SomeNat where
readsPrec p xs = do (a,ys) <- readsPrec p xs
case someNatVal a of
Nothing -> []
Just n -> [(n,ys)]
instance Eq SomeSymbol where
SomeSymbol x == SomeSymbol y = symbolVal x == symbolVal y
instance Ord SomeSymbol where
compare (SomeSymbol x) (SomeSymbol y) = compare (symbolVal x) (symbolVal y)
instance Show SomeSymbol where
showsPrec p (SomeSymbol x) = showsPrec p (symbolVal x)
instance Read SomeSymbol where
readsPrec p xs = [ (someSymbolVal a, ys) | (a,ys) <- readsPrec p xs ]
type family EqNat (a :: Nat) (b :: Nat) where
EqNat a a = 'True
EqNat a b = 'False
type instance a == b = EqNat a b
type family EqSymbol (a :: Symbol) (b :: Symbol) where
EqSymbol a a = 'True
EqSymbol a b = 'False
type instance a == b = EqSymbol a b
--------------------------------------------------------------------------------
infix 4 <=?, <=
infixl 6 +, -
infixl 7 *
infixr 8 ^
-- | Comparison of type-level naturals, as a constraint.
type x <= y = (x <=? y) ~ 'True
-- | Comparison of type-level symbols, as a function.
--
-- @since 4.7.0.0
type family CmpSymbol (m :: Symbol) (n :: Symbol) :: Ordering
-- | Comparison of type-level naturals, as a function.
--
-- @since 4.7.0.0
type family CmpNat (m :: Nat) (n :: Nat) :: Ordering
{- | Comparison of type-level naturals, as a function.
NOTE: The functionality for this function should be subsumed
by 'CmpNat', so this might go away in the future.
Please let us know, if you encounter discrepancies between the two. -}
type family (m :: Nat) <=? (n :: Nat) :: Bool
-- | Addition of type-level naturals.
type family (m :: Nat) + (n :: Nat) :: Nat
-- | Multiplication of type-level naturals.
type family (m :: Nat) * (n :: Nat) :: Nat
-- | Exponentiation of type-level naturals.
type family (m :: Nat) ^ (n :: Nat) :: Nat
-- | Subtraction of type-level naturals.
--
-- @since 4.7.0.0
type family (m :: Nat) - (n :: Nat) :: Nat
--------------------------------------------------------------------------------
-- | We either get evidence that this function was instantiated with the
-- same type-level numbers, or 'Nothing'.
--
-- @since 4.7.0.0
sameNat :: (KnownNat a, KnownNat b) =>
Proxy a -> Proxy b -> Maybe (a :~: b)
sameNat x y
| natVal x == natVal y = Just (unsafeCoerce Refl)
| otherwise = Nothing
-- | We either get evidence that this function was instantiated with the
-- same type-level symbols, or 'Nothing'.
--
-- @since 4.7.0.0
sameSymbol :: (KnownSymbol a, KnownSymbol b) =>
Proxy a -> Proxy b -> Maybe (a :~: b)
sameSymbol x y
| symbolVal x == symbolVal y = Just (unsafeCoerce Refl)
| otherwise = Nothing
--------------------------------------------------------------------------------
-- PRIVATE:
newtype SNat (n :: Nat) = SNat Integer
newtype SSymbol (s :: Symbol) = SSymbol String
data WrapN a b = WrapN (KnownNat a => Proxy a -> b)
data WrapS a b = WrapS (KnownSymbol a => Proxy a -> b)
-- See Note [magicDictId magic] in "basicType/MkId.hs"
withSNat :: (KnownNat a => Proxy a -> b)
-> SNat a -> Proxy a -> b
withSNat f x y = magicDict (WrapN f) x y
-- See Note [magicDictId magic] in "basicType/MkId.hs"
withSSymbol :: (KnownSymbol a => Proxy a -> b)
-> SSymbol a -> Proxy a -> b
withSSymbol f x y = magicDict (WrapS f) x y