{-# LANGUAGE AllowAmbiguousTypes #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE InstanceSigs #-}
{-# LANGUAGE PatternSynonyms #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeApplications #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE UndecidableInstances #-}
{-# LANGUAGE Trustworthy #-}
{-# LANGUAGE ViewPatterns #-}
module Data.Parameterized.Context
(
#ifdef UNSAFE_OPS
module Data.Parameterized.Context.Unsafe
#else
module Data.Parameterized.Context.Safe
#endif
, singleton
, toVector
, pattern (:>)
, pattern Empty
, decompose
, Data.Parameterized.Context.null
, Data.Parameterized.Context.init
, Data.Parameterized.Context.last
, Data.Parameterized.Context.view
, forIndexM
, generateSome
, generateSomeM
, fromList
, CtxEmbedding(..)
, ExtendContext(..)
, ExtendContext'(..)
, ApplyEmbedding(..)
, ApplyEmbedding'(..)
, identityEmbedding
, extendEmbeddingRightDiff
, extendEmbeddingRight
, extendEmbeddingBoth
, ctxeSize
, ctxeAssignment
, Idx
, field
, natIndex
, natIndexProxy
, CurryAssignment
, CurryAssignmentClass(..)
, size1, size2, size3, size4, size5, size6
, i1of2, i2of2
, i1of3, i2of3, i3of3
, i1of4, i2of4, i3of4, i4of4
, i1of5, i2of5, i3of5, i4of5, i5of5
, i1of6, i2of6, i3of6, i4of6, i5of6, i6of6
) where
import Control.Lens hiding (Index, (:>), Empty)
import qualified Data.Vector as V
import qualified Data.Vector.Mutable as MV
import GHC.TypeLits (Nat, type (-))
import Data.Parameterized.Classes
import Data.Parameterized.Some
import Data.Parameterized.TraversableFC
#ifdef UNSAFE_OPS
import Data.Parameterized.Context.Unsafe
#else
import Data.Parameterized.Context.Safe
#endif
singleton :: f tp -> Assignment f (EmptyCtx ::> tp)
singleton = (empty :>)
forIndexM :: forall ctx m
. Applicative m
=> Size ctx
-> (forall tp . Index ctx tp -> m ())
-> m ()
forIndexM sz f = forIndexRange 0 sz (\i r -> f i *> r) (pure ())
generateSome :: forall f
. Int
-> (Int -> Some f)
-> Some (Assignment f)
generateSome n f = go n
where go :: Int -> Some (Assignment f)
go 0 = Some empty
go i = (\(Some a) (Some e) -> Some (a `extend` e)) (go (i-1)) (f (i-1))
generateSomeM :: forall m f
. Applicative m
=> Int
-> (Int -> m (Some f))
-> m (Some (Assignment f))
generateSomeM n f = go n
where go :: Int -> m (Some (Assignment f))
go 0 = pure (Some empty)
go i = (\(Some a) (Some e) -> Some (a `extend` e)) <$> go (i-1) <*> f (i-1)
toVector :: Assignment f tps -> (forall tp . f tp -> e) -> V.Vector e
toVector a f = V.create $ do
vm <- MV.new (sizeInt (size a))
forIndexM (size a) $ \i -> do
MV.write vm (indexVal i) (f (a ! i))
return vm
{-# INLINABLE toVector #-}
pattern Empty :: () => ctx ~ EmptyCtx => Assignment f ctx
pattern Empty <- (viewAssign -> AssignEmpty)
where Empty = empty
infixl :>
pattern (:>) :: () => ctx' ~ (ctx ::> tp) => Assignment f ctx -> f tp -> Assignment f ctx'
pattern (:>) a v <- (viewAssign -> AssignExtend a v)
where a :> v = extend a v
#if MIN_VERSION_base(4,10,0)
{-# COMPLETE (:>), Empty :: Assignment #-}
#endif
null :: Assignment f ctx -> Bool
null a =
case viewAssign a of
AssignEmpty -> True
AssignExtend{} -> False
decompose :: Assignment f (ctx ::> tp) -> (Assignment f ctx, f tp)
decompose x = (Data.Parameterized.Context.init x, Data.Parameterized.Context.last x)
init :: Assignment f (ctx '::> tp) -> Assignment f ctx
init x =
case viewAssign x of
AssignExtend t _ -> t
last :: Assignment f (ctx '::> tp) -> f tp
last x =
case viewAssign x of
AssignExtend _ e -> e
{-# DEPRECATED view "Use viewAssign or the Empty and :> patterns instead." #-}
view :: forall f ctx . Assignment f ctx -> AssignView f ctx
view = viewAssign
data CtxEmbedding (ctx :: Ctx k) (ctx' :: Ctx k)
= CtxEmbedding { _ctxeSize :: Size ctx'
, _ctxeAssignment :: Assignment (Index ctx') ctx
}
ctxeSize :: Simple Lens (CtxEmbedding ctx ctx') (Size ctx')
ctxeSize = lens _ctxeSize (\s v -> s { _ctxeSize = v })
ctxeAssignment :: Lens (CtxEmbedding ctx1 ctx') (CtxEmbedding ctx2 ctx')
(Assignment (Index ctx') ctx1) (Assignment (Index ctx') ctx2)
ctxeAssignment = lens _ctxeAssignment (\s v -> s { _ctxeAssignment = v })
class ApplyEmbedding (f :: Ctx k -> *) where
applyEmbedding :: CtxEmbedding ctx ctx' -> f ctx -> f ctx'
class ApplyEmbedding' (f :: Ctx k -> k' -> *) where
applyEmbedding' :: CtxEmbedding ctx ctx' -> f ctx v -> f ctx' v
class ExtendContext (f :: Ctx k -> *) where
extendContext :: Diff ctx ctx' -> f ctx -> f ctx'
class ExtendContext' (f :: Ctx k -> k' -> *) where
extendContext' :: Diff ctx ctx' -> f ctx v -> f ctx' v
instance ApplyEmbedding' Index where
applyEmbedding' ctxe idx = (ctxe ^. ctxeAssignment) ! idx
instance ExtendContext' Index where
extendContext' = extendIndex'
identityEmbedding :: Size ctx -> CtxEmbedding ctx ctx
identityEmbedding sz = CtxEmbedding sz (generate sz id)
extendEmbeddingRightDiff :: forall ctx ctx' ctx''.
Diff ctx' ctx''
-> CtxEmbedding ctx ctx'
-> CtxEmbedding ctx ctx''
extendEmbeddingRightDiff diff (CtxEmbedding sz' assgn) = CtxEmbedding (extSize sz' diff) updated
where
updated :: Assignment (Index ctx'') ctx
updated = fmapFC (extendIndex' diff) assgn
extendEmbeddingRight :: CtxEmbedding ctx ctx' -> CtxEmbedding ctx (ctx' ::> tp)
extendEmbeddingRight = extendEmbeddingRightDiff knownDiff
extendEmbeddingBoth :: forall ctx ctx' tp. CtxEmbedding ctx ctx' -> CtxEmbedding (ctx ::> tp) (ctx' ::> tp)
extendEmbeddingBoth ctxe = updated & ctxeAssignment %~ flip extend (nextIndex (ctxe ^. ctxeSize))
where
updated :: CtxEmbedding ctx (ctx' ::> tp)
updated = extendEmbeddingRight ctxe
field :: forall n ctx f r. Idx n ctx r => Lens' (Assignment f ctx) (f r)
field = ixF' (natIndex @n)
type Idx n ctx r = (ValidIx n ctx, Idx' (FromLeft ctx n) ctx r)
natIndex :: forall n ctx r. Idx n ctx r => Index ctx r
natIndex = natIndex' @_ @(FromLeft ctx n)
natIndexProxy :: forall n ctx r proxy. Idx n ctx r => proxy n -> Index ctx r
natIndexProxy _ = natIndex @n
class KnownContext ctx => Idx' (n :: Nat) (ctx :: Ctx k) (r :: k) | n ctx -> r where
natIndex' :: Index ctx r
instance KnownContext xs => Idx' 0 (xs '::> x) x where
natIndex' = lastIndex knownSize
instance {-# Overlaps #-} (KnownContext xs, Idx' (n-1) xs r) =>
Idx' n (xs '::> x) r where
natIndex' = skipIndex (natIndex' @_ @(n-1))
type family CurryAssignment (ctx :: Ctx k) (f :: k -> *) (x :: *) :: * where
CurryAssignment EmptyCtx f x = x
CurryAssignment (ctx ::> a) f x = CurryAssignment ctx f (f a -> x)
class CurryAssignmentClass (ctx :: Ctx k) where
curryAssignment :: (Assignment f ctx -> x) -> CurryAssignment ctx f x
uncurryAssignment :: CurryAssignment ctx f x -> (Assignment f ctx -> x)
instance CurryAssignmentClass EmptyCtx where
curryAssignment k = k empty
uncurryAssignment k _ = k
instance CurryAssignmentClass ctx => CurryAssignmentClass (ctx ::> a) where
curryAssignment k = curryAssignment (\asgn a -> k (asgn :> a))
uncurryAssignment k asgn =
case viewAssign asgn of
AssignExtend asgn' x -> uncurryAssignment k asgn' x
fromList :: [Some f] -> Some (Assignment f)
fromList = go empty
where go :: Assignment f ctx -> [Some f] -> Some (Assignment f)
go prev [] = Some prev
go prev (Some g:next) = (go $! prev `extend` g) next
size1 :: Size (EmptyCtx ::> a)
size1 = incSize zeroSize
size2 :: Size (EmptyCtx ::> a ::> b)
size2 = incSize size1
size3 :: Size (EmptyCtx ::> a ::> b ::> c)
size3 = incSize size2
size4 :: Size (EmptyCtx ::> a ::> b ::> c ::> d)
size4 = incSize size3
size5 :: Size (EmptyCtx ::> a ::> b ::> c ::> d ::> e)
size5 = incSize size4
size6 :: Size (EmptyCtx ::> a ::> b ::> c ::> d ::> e ::> f)
size6 = incSize size5
i1of2 :: Index (EmptyCtx ::> a ::> b) a
i1of2 = skipIndex baseIndex
i2of2 :: Index (EmptyCtx ::> a ::> b) b
i2of2 = nextIndex size1
i1of3 :: Index (EmptyCtx ::> a ::> b ::> c) a
i1of3 = skipIndex i1of2
i2of3 :: Index (EmptyCtx ::> a ::> b ::> c) b
i2of3 = skipIndex i2of2
i3of3 :: Index (EmptyCtx ::> a ::> b ::> c) c
i3of3 = nextIndex size2
i1of4 :: Index (EmptyCtx ::> a ::> b ::> c ::> d) a
i1of4 = skipIndex i1of3
i2of4 :: Index (EmptyCtx ::> a ::> b ::> c ::> d) b
i2of4 = skipIndex i2of3
i3of4 :: Index (EmptyCtx ::> a ::> b ::> c ::> d) c
i3of4 = skipIndex i3of3
i4of4 :: Index (EmptyCtx ::> a ::> b ::> c ::> d) d
i4of4 = nextIndex size3
i1of5 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e) a
i1of5 = skipIndex i1of4
i2of5 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e) b
i2of5 = skipIndex i2of4
i3of5 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e) c
i3of5 = skipIndex i3of4
i4of5 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e) d
i4of5 = skipIndex i4of4
i5of5 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e) e
i5of5 = nextIndex size4
i1of6 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e ::> f) a
i1of6 = skipIndex i1of5
i2of6 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e ::> f) b
i2of6 = skipIndex i2of5
i3of6 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e ::> f) c
i3of6 = skipIndex i3of5
i4of6 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e ::> f) d
i4of6 = skipIndex i4of5
i5of6 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e ::> f) e
i5of6 = skipIndex i5of5
i6of6 :: Index (EmptyCtx ::> a ::> b ::> c ::> d ::> e ::> f) f
i6of6 = nextIndex size5