{-# LANGUAGE DataKinds #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeInType #-}
{-# LANGUAGE UndecidableInstances #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
module Exinst.Serialise () where
import Codec.Serialise
import Codec.Serialise.Decoding (decodeListLenOf)
import Data.Constraint
import Data.Kind (Type)
import Data.Singletons
import Prelude
import Exinst
instance forall k1 (f :: k1 -> Type)
. ( SingKind k1
, Serialise (Demote k1)
, Dict1 Serialise f
) => Serialise (Some1 f)
where
{-# INLINABLE encode #-}
encode :: Some1 f -> Encoding
encode = \Some1 f
some1x -> forall k1 (f1 :: k1 -> *) r.
Some1 f1
-> (forall (a1 :: k1). SingI a1 => Sing a1 -> f1 a1 -> r) -> r
withSome1Sing Some1 f
some1x forall a b. (a -> b) -> a -> b
$ \Sing a1
sa1 (f a1
x :: f a1) ->
case forall k0 k1 (c :: k0 -> Constraint) (f1 :: k1 -> k0) (a1 :: k1).
Dict1 c f1 =>
Sing a1 -> Dict (c (f1 a1))
dict1 Sing a1
sa1 :: Dict (Serialise (f a1)) of
Dict (Serialise (f a1))
Dict -> forall a. Serialise a => a -> Encoding
encode (forall k (a :: k). SingKind k => Sing a -> Demote k
fromSing Sing a1
sa1, f a1
x)
{-# INLINABLE decode #-}
decode :: forall s. Decoder s (Some1 f)
decode = do
forall s. Int -> Decoder s ()
decodeListLenOf Int
2
Demote k1
rsa1 <- forall a s. Serialise a => Decoder s a
decode
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote k1
rsa1 forall a b. (a -> b) -> a -> b
$ \(Sing a
sa1 :: Sing (a1 :: k1)) ->
case forall k0 k1 (c :: k0 -> Constraint) (f1 :: k1 -> k0) (a1 :: k1).
Dict1 c f1 =>
Sing a1 -> Dict (c (f1 a1))
dict1 Sing a
sa1 :: Dict (Serialise (f a1)) of
Dict (Serialise (f a))
Dict -> do
f a
x :: f a1 <- forall a s. Serialise a => Decoder s a
decode
forall (f :: * -> *) a. Applicative f => a -> f a
pure (forall k1 (f1 :: k1 -> *) (a1 :: k1). Sing a1 -> f1 a1 -> Some1 f1
Some1 Sing a
sa1 f a
x)
instance forall k2 k1 (f :: k2 -> k1 -> Type)
. ( SingKind k2
, SingKind k1
, Serialise (Demote k2)
, Serialise (Demote k1)
, Dict2 Serialise f
) => Serialise (Some2 f)
where
{-# INLINABLE encode #-}
encode :: Some2 f -> Encoding
encode = \Some2 f
some2x -> forall k2 k1 (f2 :: k2 -> k1 -> *) r.
Some2 f2
-> (forall (a2 :: k2) (a1 :: k1).
(SingI a2, SingI a1) =>
Sing a2 -> Sing a1 -> f2 a2 a1 -> r)
-> r
withSome2Sing Some2 f
some2x forall a b. (a -> b) -> a -> b
$ \Sing a2
sa2 Sing a1
sa1 (f a2 a1
x :: f a2 a1) ->
case forall k0 k2 k1 (c :: k0 -> Constraint) (f2 :: k2 -> k1 -> k0)
(a2 :: k2) (a1 :: k1).
Dict2 c f2 =>
Sing a2 -> Sing a1 -> Dict (c (f2 a2 a1))
dict2 Sing a2
sa2 Sing a1
sa1 :: Dict (Serialise (f a2 a1)) of
Dict (Serialise (f a2 a1))
Dict -> forall a. Serialise a => a -> Encoding
encode (forall k (a :: k). SingKind k => Sing a -> Demote k
fromSing Sing a2
sa2, forall k (a :: k). SingKind k => Sing a -> Demote k
fromSing Sing a1
sa1, f a2 a1
x)
{-# INLINABLE decode #-}
decode :: forall s. Decoder s (Some2 f)
decode = do
forall s. Int -> Decoder s ()
decodeListLenOf Int
3
Demote k2
rsa2 <- forall a s. Serialise a => Decoder s a
decode; Demote k1
rsa1 <- forall a s. Serialise a => Decoder s a
decode
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote k2
rsa2 forall a b. (a -> b) -> a -> b
$ \(Sing a
sa2 :: Sing (a2 :: k2)) ->
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote k1
rsa1 forall a b. (a -> b) -> a -> b
$ \(Sing a
sa1 :: Sing (a1 :: k1)) ->
case forall k0 k2 k1 (c :: k0 -> Constraint) (f2 :: k2 -> k1 -> k0)
(a2 :: k2) (a1 :: k1).
Dict2 c f2 =>
Sing a2 -> Sing a1 -> Dict (c (f2 a2 a1))
dict2 Sing a
sa2 Sing a
sa1 :: Dict (Serialise (f a2 a1)) of
Dict (Serialise (f a a))
Dict -> do
f a a
x :: f a2 a1 <- forall a s. Serialise a => Decoder s a
decode
forall (f :: * -> *) a. Applicative f => a -> f a
pure (forall k2 k1 (f2 :: k2 -> k1 -> *) (a2 :: k2) (a1 :: k1).
Sing a2 -> Sing a1 -> f2 a2 a1 -> Some2 f2
Some2 Sing a
sa2 Sing a
sa1 f a a
x)
instance forall k3 k2 k1 (f :: k3 -> k2 -> k1 -> Type)
. ( SingKind k3
, SingKind k2
, SingKind k1
, Serialise (Demote k3)
, Serialise (Demote k2)
, Serialise (Demote k1)
, Dict3 Serialise f
) => Serialise (Some3 f)
where
{-# INLINABLE encode #-}
encode :: Some3 f -> Encoding
encode = \Some3 f
some3x -> forall k3 k2 k1 (f3 :: k3 -> k2 -> k1 -> *) r.
Some3 f3
-> (forall (a3 :: k3) (a2 :: k2) (a1 :: k1).
(SingI a3, SingI a2, SingI a1) =>
Sing a3 -> Sing a2 -> Sing a1 -> f3 a3 a2 a1 -> r)
-> r
withSome3Sing Some3 f
some3x forall a b. (a -> b) -> a -> b
$ \Sing a3
sa3 Sing a2
sa2 Sing a1
sa1 (f a3 a2 a1
x :: f a3 a2 a1) ->
case forall k0 k3 k2 k1 (c :: k0 -> Constraint)
(f3 :: k3 -> k2 -> k1 -> k0) (a3 :: k3) (a2 :: k2) (a1 :: k1).
Dict3 c f3 =>
Sing a3 -> Sing a2 -> Sing a1 -> Dict (c (f3 a3 a2 a1))
dict3 Sing a3
sa3 Sing a2
sa2 Sing a1
sa1 :: Dict (Serialise (f a3 a2 a1)) of
Dict (Serialise (f a3 a2 a1))
Dict -> forall a. Serialise a => a -> Encoding
encode (forall k (a :: k). SingKind k => Sing a -> Demote k
fromSing Sing a3
sa3, forall k (a :: k). SingKind k => Sing a -> Demote k
fromSing Sing a2
sa2, forall k (a :: k). SingKind k => Sing a -> Demote k
fromSing Sing a1
sa1, f a3 a2 a1
x)
{-# INLINABLE decode #-}
decode :: forall s. Decoder s (Some3 f)
decode = do
forall s. Int -> Decoder s ()
decodeListLenOf Int
4
Demote k3
rsa3 <- forall a s. Serialise a => Decoder s a
decode; Demote k2
rsa2 <- forall a s. Serialise a => Decoder s a
decode; Demote k1
rsa1 <- forall a s. Serialise a => Decoder s a
decode
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote k3
rsa3 forall a b. (a -> b) -> a -> b
$ \(Sing a
sa3 :: Sing (a3 :: k3)) ->
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote k2
rsa2 forall a b. (a -> b) -> a -> b
$ \(Sing a
sa2 :: Sing (a2 :: k2)) ->
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote k1
rsa1 forall a b. (a -> b) -> a -> b
$ \(Sing a
sa1 :: Sing (a1 :: k1)) ->
case forall k0 k3 k2 k1 (c :: k0 -> Constraint)
(f3 :: k3 -> k2 -> k1 -> k0) (a3 :: k3) (a2 :: k2) (a1 :: k1).
Dict3 c f3 =>
Sing a3 -> Sing a2 -> Sing a1 -> Dict (c (f3 a3 a2 a1))
dict3 Sing a
sa3 Sing a
sa2 Sing a
sa1 :: Dict (Serialise (f a3 a2 a1)) of
Dict (Serialise (f a a a))
Dict -> do
f a a a
x :: f a3 a2 a1 <- forall a s. Serialise a => Decoder s a
decode
forall (f :: * -> *) a. Applicative f => a -> f a
pure (forall k3 k2 k1 (f3 :: k3 -> k2 -> k1 -> *) (a3 :: k3) (a2 :: k2)
(a1 :: k1).
Sing a3 -> Sing a2 -> Sing a1 -> f3 a3 a2 a1 -> Some3 f3
Some3 Sing a
sa3 Sing a
sa2 Sing a
sa1 f a a a
x)
instance forall k4 k3 k2 k1 (f :: k4 -> k3 -> k2 -> k1 -> Type)
. ( SingKind k4
, SingKind k3
, SingKind k2
, SingKind k1
, Serialise (Demote k4)
, Serialise (Demote k3)
, Serialise (Demote k2)
, Serialise (Demote k1)
, Dict4 Serialise f
) => Serialise (Some4 f)
where
{-# INLINABLE encode #-}
encode :: Some4 f -> Encoding
encode = \Some4 f
some4x -> forall k4 k3 k2 k1 (f4 :: k4 -> k3 -> k2 -> k1 -> *) r.
Some4 f4
-> (forall (a4 :: k4) (a3 :: k3) (a2 :: k2) (a1 :: k1).
(SingI a4, SingI a3, SingI a2, SingI a1) =>
Sing a4 -> Sing a3 -> Sing a2 -> Sing a1 -> f4 a4 a3 a2 a1 -> r)
-> r
withSome4Sing Some4 f
some4x forall a b. (a -> b) -> a -> b
$ \Sing a4
sa4 Sing a3
sa3 Sing a2
sa2 Sing a1
sa1 (f a4 a3 a2 a1
x :: f a4 a3 a2 a1) ->
case forall k0 k4 k3 k2 k1 (c :: k0 -> Constraint)
(f4 :: k4 -> k3 -> k2 -> k1 -> k0) (a4 :: k4) (a3 :: k3) (a2 :: k2)
(a1 :: k1).
Dict4 c f4 =>
Sing a4
-> Sing a3 -> Sing a2 -> Sing a1 -> Dict (c (f4 a4 a3 a2 a1))
dict4 Sing a4
sa4 Sing a3
sa3 Sing a2
sa2 Sing a1
sa1 :: Dict (Serialise (f a4 a3 a2 a1)) of
Dict (Serialise (f a4 a3 a2 a1))
Dict -> forall a. Serialise a => a -> Encoding
encode (forall k (a :: k). SingKind k => Sing a -> Demote k
fromSing Sing a4
sa4, forall k (a :: k). SingKind k => Sing a -> Demote k
fromSing Sing a3
sa3, forall k (a :: k). SingKind k => Sing a -> Demote k
fromSing Sing a2
sa2, forall k (a :: k). SingKind k => Sing a -> Demote k
fromSing Sing a1
sa1, f a4 a3 a2 a1
x)
{-# INLINABLE decode #-}
decode :: forall s. Decoder s (Some4 f)
decode = do
forall s. Int -> Decoder s ()
decodeListLenOf Int
5
Demote k4
rsa4 <- forall a s. Serialise a => Decoder s a
decode; Demote k3
rsa3 <- forall a s. Serialise a => Decoder s a
decode; Demote k2
rsa2 <- forall a s. Serialise a => Decoder s a
decode; Demote k1
rsa1 <- forall a s. Serialise a => Decoder s a
decode;
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote k4
rsa4 forall a b. (a -> b) -> a -> b
$ \(Sing a
sa4 :: Sing (a4 :: k4)) ->
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote k3
rsa3 forall a b. (a -> b) -> a -> b
$ \(Sing a
sa3 :: Sing (a3 :: k3)) ->
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote k2
rsa2 forall a b. (a -> b) -> a -> b
$ \(Sing a
sa2 :: Sing (a2 :: k2)) ->
forall k r.
SingKind k =>
Demote k -> (forall (a :: k). Sing a -> r) -> r
withSomeSing Demote k1
rsa1 forall a b. (a -> b) -> a -> b
$ \(Sing a
sa1 :: Sing (a1 :: k1)) ->
case forall k0 k4 k3 k2 k1 (c :: k0 -> Constraint)
(f4 :: k4 -> k3 -> k2 -> k1 -> k0) (a4 :: k4) (a3 :: k3) (a2 :: k2)
(a1 :: k1).
Dict4 c f4 =>
Sing a4
-> Sing a3 -> Sing a2 -> Sing a1 -> Dict (c (f4 a4 a3 a2 a1))
dict4 Sing a
sa4 Sing a
sa3 Sing a
sa2 Sing a
sa1 :: Dict (Serialise (f a4 a3 a2 a1)) of
Dict (Serialise (f a a a a))
Dict -> do
f a a a a
x :: f a4 a3 a2 a1 <- forall a s. Serialise a => Decoder s a
decode
forall (f :: * -> *) a. Applicative f => a -> f a
pure (forall k4 k3 k2 k1 (f4 :: k4 -> k3 -> k2 -> k1 -> *) (a4 :: k4)
(a3 :: k3) (a2 :: k2) (a1 :: k1).
Sing a4
-> Sing a3 -> Sing a2 -> Sing a1 -> f4 a4 a3 a2 a1 -> Some4 f4
Some4 Sing a
sa4 Sing a
sa3 Sing a
sa2 Sing a
sa1 f a a a a
x)
instance (Serialise (l a1), Serialise (r a1)) => Serialise (S1 l r a1)
instance (Serialise (l a2 a1), Serialise (r a2 a1)) => Serialise (S2 l r a2 a1)
instance (Serialise (l a3 a2 a1), Serialise (r a3 a2 a1)) => Serialise (S3 l r a3 a2 a1)
instance (Serialise (l a4 a3 a2 a1), Serialise (r a4 a3 a2 a1)) => Serialise (S4 l r a4 a3 a2 a1)
instance (Serialise (l a1), Serialise (r a1)) => Serialise (P1 l r a1)
instance (Serialise (l a2 a1), Serialise (r a2 a1)) => Serialise (P2 l r a2 a1)
instance (Serialise (l a3 a2 a1), Serialise (r a3 a2 a1)) => Serialise (P3 l r a3 a2 a1)
instance (Serialise (l a4 a3 a2 a1), Serialise (r a4 a3 a2 a1)) => Serialise (P4 l r a4 a3 a2 a1)