{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeFamilies #-}
module Data.Dependent.Map.Internal
( Map(..)
, empty
, null
, singleton
, lookup
, fromList
, fromListN
, map
, mapWithKey
, mapMaybe
, mapMaybeWithKey
, appendRightBiased
, append
, toList
, showsPrec
, equals
, compare
, unsafeFreezeZip
, toJSON
, parseJSON
, foldrWithKey
, foldlWithKeyM'
, foldMapWithKey
, traverseWithKey_
, size
) where
import Prelude hiding (lookup,showsPrec,compare,null,map)
import Data.Dependent.Map.Class (Universally,Apply,ApplyUniversally)
import Data.Primitive.Contiguous (Contiguous,Mutable,Element)
import Control.Monad.ST (ST,runST)
import Data.Proxy (Proxy(..))
import GHC.Exts (Any,coerce)
import Unsafe.Coerce (unsafeCoerce)
import Data.Exists (OrdForallPoly(..),EqForallPoly(..),DependentPair(..),ShowForall,ToSing)
import Data.Exists (ShowForeach,EqForeach,OrdForeach,ToJSONKeyForall,FromJSONForeach)
import Data.Exists (ToJSONForall,ToJSONKeyFunctionForall,ToJSONForeach)
import Data.Exists (FromJSONKeyExists,SemigroupForeach,Sing)
import Data.Semigroup (Semigroup)
import Data.Primitive.Sort (sortUniqueTaggedMutable)
import Data.Kind (Type)
import Data.Aeson (ToJSON,FromJSON)
import Data.Text (Text)
import qualified Data.Vector as V
import qualified Data.Exists as EX
import qualified Data.Aeson as AE
import qualified Data.Aeson.Types as AET
import qualified Data.HashMap.Strict as HM
import qualified Prelude as P
import qualified Data.Map.Internal as I
import qualified Data.Primitive.Contiguous as I
import qualified Data.Dependent.Map.Class as C
import qualified Data.Map.Internal as M
import qualified Data.Foldable as F
newtype Map karr varr (k :: u -> Type) (v :: u -> Type) = Map (M.Map karr varr (Apply k Any) (v Any))
empty :: (Contiguous karr, Contiguous varr) => Map karr varr k v
empty = Map M.empty
null :: forall karr varr k v. (Contiguous varr) => Map karr varr k v -> Bool
null (Map m) = M.null m
singleton :: forall karr varr k v a.
(Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr))
=> k a -> v a -> Map karr varr k v
singleton k v = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ Map (M.singleton (wrapKey k) (wrapValue (Proxy :: Proxy v) (Proxy :: Proxy a) v))
toJSON :: forall karr varr k v.
(ToJSONKeyForall k, ToJSONForeach v, ToSing k, Contiguous karr, Contiguous varr,ApplyUniversally v (Element varr),Universally k (Element karr))
=> Map karr varr k v
-> AE.Value
toJSON (Map m) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ case EX.toJSONKeyForall :: ToJSONKeyFunctionForall k of
EX.ToJSONKeyValueForall toValue _ -> AE.Array $ V.fromListN
( M.size m )
( M.foldrWithKey
( \(C.Apply k) v xs -> AE.toJSON (toValue k,EX.toJSONForeach (EX.toSing k) v) : xs
) [] m
)
EX.ToJSONKeyTextForall toText _ -> AE.Object
( M.foldlWithKey'
( \hm (C.Apply k) v -> HM.insert (toText k) (EX.toJSONForeach (EX.toSing k) v) hm
) HM.empty m
)
parseJSON :: forall karr varr k v.
(FromJSONKeyExists k, ToSing k, OrdForallPoly k, FromJSONForeach v, Contiguous karr, Contiguous varr, ApplyUniversally v (Element varr),Universally k (Element karr),ApplyUniversally k (Element karr))
=> AE.Value
-> AET.Parser (Map karr varr k v)
parseJSON theValue =
case EX.fromJSONKeyExists :: AE.FromJSONKeyFunction (EX.Exists k) of
AE.FromJSONKeyCoerce _ -> error "Data.Dependent.Map.Internal.fromJSON: this cannot happen"
AE.FromJSONKeyText fromText -> AET.withObject "DependentMap"
(fmap fromList . HM.foldrWithKey (f1 fromText) (return []))
theValue
AE.FromJSONKeyTextParser fromText -> AET.withObject "DependentMap"
(fmap fromList . HM.foldrWithKey (f2 fromText) (return []))
theValue
AE.FromJSONKeyValue fromValue -> AET.withArray "DependentMap"
(fmap fromList . F.foldlM (f3 fromValue) [])
theValue
where
f1 :: (Text -> EX.Exists k) -> Text -> AE.Value -> AET.Parser [DependentPair k v] -> AET.Parser [DependentPair k v]
f1 fromText keyText valRaw m = case fromText keyText of
EX.Exists key -> do
let keySing = EX.toSing key
val <- EX.parseJSONForeach keySing valRaw
dm <- m
return (DependentPair key val : dm)
f2 :: (Text -> AET.Parser (EX.Exists k)) -> Text -> AE.Value -> AET.Parser [DependentPair k v] -> AET.Parser [DependentPair k v]
f2 fromText keyText valRaw m = do
EX.Exists key <- fromText keyText
let keySing = EX.toSing key
val <- EX.parseJSONForeach keySing valRaw
dm <- m
return (DependentPair key val : dm)
f3 :: (AE.Value -> AET.Parser (EX.Exists k)) -> [DependentPair k v] -> AE.Value -> AET.Parser [DependentPair k v]
f3 fromValue dm pairRaw = do
(keyRaw :: AE.Value,valRaw :: AE.Value) <- AE.parseJSON pairRaw
EX.Exists key <- fromValue keyRaw
let keySing = EX.toSing key
val <- EX.parseJSONForeach keySing valRaw
return (DependentPair key val : dm)
lookup :: forall karr varr k v a.
(OrdForallPoly k, Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr))
=> k a
-> Map karr varr k v
-> Maybe (v a)
{-# INLINABLE lookup #-}
lookup k (Map m) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ case M.lookup (wrapKey k) m of
Nothing -> Nothing
Just v -> Just (unwrapValue (Proxy :: Proxy v) (Proxy :: Proxy a) v)
appendWith :: forall karr varr k v.
(Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), OrdForallPoly k, ToSing k)
=> (forall a. Sing a -> v a -> v a -> v a)
-> Map karr varr k v
-> Map karr varr k v
-> Map karr varr k v
appendWith f (Map m1) (Map m2) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ Map (M.appendKeyWith (\(C.Apply k) v1 v2 -> f (EX.toSing k) v1 v2) m1 m2)
append :: forall karr varr k v.
(Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), OrdForallPoly k, SemigroupForeach v, ToSing k)
=> Map karr varr k v
-> Map karr varr k v
-> Map karr varr k v
append = appendWith EX.appendForeach
appendRightBiased :: forall karr varr k v.
(Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), OrdForallPoly k)
=> Map karr varr k v
-> Map karr varr k v
-> Map karr varr k v
appendRightBiased (Map m1) (Map m2) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ Map (M.appendRightBiased m1 m2)
wrapKeyUnapplied :: f k -> f Any
wrapKeyUnapplied = unsafeCoerce
wrapKey :: f k -> Apply f Any
wrapKey = unsafeCoerce
wrapValue :: Proxy v -> Proxy a -> v a -> v Any
wrapValue _ _ = unsafeCoerce
unwrapValue :: Proxy v -> Proxy a -> v Any -> v a
unwrapValue _ _ = unsafeCoerce
unsafeCoerceMutableKeyArray ::
Mutable karr s (f Any)
-> Mutable karr s (Apply f Any)
unsafeCoerceMutableKeyArray = unsafeCoerce
fromList ::
(Contiguous karr, ApplyUniversally k (Element karr), Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), OrdForallPoly k)
=> [DependentPair k v]
-> Map karr varr k v
fromList = fromListN 1
fromListN ::
(Contiguous karr, ApplyUniversally k (Element karr), Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), OrdForallPoly k)
=> Int
-> [DependentPair k v]
-> Map karr varr k v
{-# INLINABLE fromListN #-}
fromListN n xs = runST $ do
(ks,vs) <- mutableArraysFromPairs (max n 1) xs
unsafeFreezeZip ks vs
unsafeFreezeZip :: forall karr varr k v s.
(Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), OrdForallPoly k)
=> Mutable karr s (k Any)
-> Mutable varr s (v Any)
-> ST s (Map karr varr k v)
{-# INLINABLE unsafeFreezeZip #-}
unsafeFreezeZip keys0 vals0 = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ fmap Map (M.unsafeFreezeZip (unsafeCoerceMutableKeyArray keys0) vals0)
mutableArraysFromPairs :: forall karr varr k v s.
(Contiguous karr, ApplyUniversally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), OrdForallPoly k)
=> Int
-> [DependentPair k v]
-> ST s (Mutable karr s (k Any), Mutable varr s (v Any))
{-# INLINABLE mutableArraysFromPairs #-}
mutableArraysFromPairs n xs = id
$ C.applyUniversallyLifted (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ do
let go :: Int
-> Int
-> Mutable karr s (k Any)
-> Mutable varr s (v Any)
-> [DependentPair k v]
-> ST s (Int,Mutable karr s (k Any),Mutable varr s (v Any))
go !ix !_ !ks !vs [] = return (ix,ks,vs)
go !ix !len !ks !vs (DependentPair k v : ys) = if ix < len
then do
I.write ks ix (wrapKeyUnapplied k)
I.write vs ix (wrapValue (Proxy :: Proxy v) Proxy v)
go (ix + 1) len ks vs ys
else do
let len' = len * 2
ks' <- I.new len'
vs' <- I.new len'
I.copyMutable ks' 0 ks 0 len
I.copyMutable vs' 0 vs 0 len
I.write ks' ix (wrapKeyUnapplied k)
I.write vs' ix (wrapValue (Proxy :: Proxy v) Proxy v)
go (ix + 1) len' ks' vs' ys
ks0 <- I.new n
vs0 <- I.new n
(len,ks',vs') <- go 0 n ks0 vs0 xs
ksFinal <- I.resize ks' len
vsFinal <- I.resize vs' len
return (ksFinal,vsFinal)
foldrWithKey :: forall karr varr k v b.
(Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr))
=> (forall a. k a -> v a -> b -> b)
-> b
-> Map karr varr k v
-> b
foldrWithKey f z (Map m) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ M.foldrWithKey (unsafeCoerceRightFoldFunction f) z m
foldMapWithKey :: forall karr varr k v m.
(Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), Monoid m)
=> (forall a. k a -> v a -> m)
-> Map karr varr k v
-> m
foldMapWithKey f (Map m) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ M.foldMapWithKey (unsafeCoerceFoldMapFunction f) m
traverseWithKey_ :: forall karr varr k v m b.
(Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), Applicative m)
=> (forall a. k a -> v a -> m b)
-> Map karr varr k v
-> m ()
traverseWithKey_ f (Map m) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ M.traverseWithKey_ (unsafeCoerceFoldMapFunction f) m
foldlWithKeyM' :: forall karr varr k v m b.
(Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), Monad m)
=> (forall a. b -> k a -> v a -> m b)
-> b
-> Map karr varr k v
-> m b
foldlWithKeyM' f z (Map m) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ M.foldlWithKeyM' (unsafeCoerceLeftFoldFunctionM f) z m
toList ::
(Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr))
=> Map karr varr k v
-> [DependentPair k v]
toList = foldrWithKey (\k v xs -> DependentPair k v : xs) []
unsafeCoerceMapMaybeWithKeyFunction ::
(forall a. k a -> v a -> Maybe (w a))
-> Apply k Any -> v Any -> Maybe (w Any)
unsafeCoerceMapMaybeWithKeyFunction = unsafeCoerce
unsafeCoerceMapWithKeyFunction ::
(forall a. k a -> v a -> w a)
-> Apply k Any -> v Any -> w Any
unsafeCoerceMapWithKeyFunction = unsafeCoerce
unsafeCoerceLeftFoldFunctionM ::
(forall a. b -> k a -> v a -> m b)
-> b -> Apply k Any -> v Any -> m b
unsafeCoerceLeftFoldFunctionM = unsafeCoerce
unsafeCoerceRightFoldFunction ::
(forall a. k a -> v a -> b -> b)
-> Apply k Any -> v Any -> b -> b
unsafeCoerceRightFoldFunction = unsafeCoerce
unsafeCoerceFoldMapFunction ::
(forall a. k a -> v a -> m)
-> Apply k Any -> v Any -> m
unsafeCoerceFoldMapFunction = unsafeCoerce
showsPrec :: (Contiguous karr, Universally k (Element karr), ShowForall k, ShowForeach v, ToSing k, Contiguous varr, ApplyUniversally v (Element varr))
=> Int -> Map karr varr k v -> ShowS
showsPrec p xs = showParen (p > 10) $
showString "fromList " . shows (toList xs)
equals :: (Contiguous karr, Universally k (Element karr), EqForallPoly k, EqForeach v, ToSing k, Contiguous varr, ApplyUniversally v (Element varr))
=> Map karr varr k v
-> Map karr varr k v
-> Bool
equals a b = toList a == toList b
compare :: (Contiguous karr, Universally k (Element karr), OrdForallPoly k, OrdForeach v, ToSing k, Contiguous varr, ApplyUniversally v (Element varr))
=> Map karr varr k v
-> Map karr varr k v
-> Ordering
compare a b = P.compare (toList a) (toList b)
size :: forall karr varr k v. (Contiguous varr, ApplyUniversally v (Element varr)) => Map karr varr k v -> Int
size (Map m) = id
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ M.size m
map :: forall karr varr k v w. (Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), ApplyUniversally w (Element varr))
=> (forall a. v a -> w a)
-> Map karr varr k v
-> Map karr varr k w
map f (Map m) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy w) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ Map (M.map f m)
mapMaybe :: forall karr varr k v w. (Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), ApplyUniversally w (Element varr))
=> (forall a. v a -> Maybe (w a))
-> Map karr varr k v
-> Map karr varr k w
mapMaybe f (Map m) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy w) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ Map (M.mapMaybe f m)
mapMaybeWithKey :: forall karr varr k v w. (Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), ApplyUniversally w (Element varr))
=> (forall a. k a -> v a -> Maybe (w a))
-> Map karr varr k v
-> Map karr varr k w
mapMaybeWithKey f (Map m) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy w) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ Map (M.mapMaybeWithKey (unsafeCoerceMapMaybeWithKeyFunction f) m)
mapWithKey :: forall karr varr k v w. (Contiguous karr, Universally k (Element karr), Contiguous varr, ApplyUniversally v (Element varr), ApplyUniversally w (Element varr))
=> (forall a. k a -> v a -> w a)
-> Map karr varr k v
-> Map karr varr k w
mapWithKey f (Map m) = id
$ C.universally (Proxy :: Proxy k) (Proxy :: Proxy (Element karr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy v) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ C.applyUniversallyLifted (Proxy :: Proxy w) (Proxy :: Proxy (Element varr)) (Proxy :: Proxy Any)
$ Map (M.mapWithKey (unsafeCoerceMapWithKeyFunction f) m)