morpheus-graphql-0.19.0: src/Data/Morpheus/Server/Deriving/Encode.hs
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE NamedFieldPuns #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeApplications #-}
{-# LANGUAGE UndecidableInstances #-}
{-# LANGUAGE NoImplicitPrelude #-}
module Data.Morpheus.Server.Deriving.Encode
( deriveModel,
EncodeConstraints,
ContextValue (..),
)
where
import Control.Monad.Except (MonadError)
import qualified Data.Map as M
import Data.Morpheus.App.Internal.Resolving
( LiftOperation,
ObjectTypeResolver,
Resolver,
ResolverState,
ResolverValue,
ResolverValue (..),
RootResolverValue (..),
getArguments,
liftResolverState,
mkEnum,
mkObject,
mkUnion,
requireObject,
)
import Data.Morpheus.Internal.Ext (GQLResult)
import Data.Morpheus.Kind
( CUSTOM,
DerivingKind,
SCALAR,
TYPE,
WRAPPER,
)
import Data.Morpheus.Server.Deriving.Channels
( ChannelsConstraint,
channelResolver,
)
import Data.Morpheus.Server.Deriving.Decode
( DecodeConstraint,
decodeArguments,
)
import Data.Morpheus.Server.Deriving.Utils
( ConsRep (..),
DataType (..),
FieldRep (..),
TypeConstraint (..),
TypeRep (..),
isUnionRef,
toFieldRes,
toValue,
)
import Data.Morpheus.Server.Types.GQLType
( GQLType,
KIND,
__isEmptyType,
)
import Data.Morpheus.Server.Types.Types
( TypeGuard (..),
)
import Data.Morpheus.Types
( RootResolver (..),
)
import Data.Morpheus.Types.GQLScalar
( EncodeScalar (..),
)
import Data.Morpheus.Types.GQLWrapper (EncodeWrapper (..))
import Data.Morpheus.Types.Internal.AST
( GQLError,
IN,
MUTATION,
OperationType,
QUERY,
SUBSCRIPTION,
TypeRef (..),
)
import GHC.Generics
( Generic (..),
)
import Relude
newtype ContextValue (kind :: DerivingKind) a = ContextValue
{ unContextValue :: a
}
class Encode (m :: Type -> Type) resolver where
encode :: resolver -> m (ResolverValue m)
instance (EncodeKind (KIND a) m a) => Encode m a where
encode resolver = encodeKind (ContextValue resolver :: ContextValue (KIND a) a)
-- ENCODE GQL KIND
class EncodeKind (kind :: DerivingKind) (m :: Type -> Type) (a :: Type) where
encodeKind :: ContextValue kind a -> m (ResolverValue m)
instance
( EncodeWrapper f,
Encode m a,
Monad m
) =>
EncodeKind WRAPPER m (f a)
where
encodeKind = encodeWrapper encode . unContextValue
instance
( EncodeScalar a,
Monad m
) =>
EncodeKind SCALAR m a
where
encodeKind = pure . ResScalar . encodeScalar . unContextValue
instance
( EncodeConstraint m a,
MonadError GQLError m
) =>
EncodeKind TYPE m a
where
encodeKind = pure . exploreResolvers . unContextValue
-- Map
instance (Monad m, Encode m [(k, v)]) => EncodeKind CUSTOM m (Map k v) where
encodeKind = encode . M.toList . unContextValue
-- INTERFACE Types
instance (MonadError GQLError m, EncodeConstraint m guard, EncodeConstraint m union) => EncodeKind CUSTOM m (TypeGuard guard union) where
encodeKind (ContextValue (ResolveType value)) = pure (exploreResolvers value)
encodeKind (ContextValue (ResolveInterface value)) = pure (exploreResolvers value)
-- GQL a -> Resolver b, MUTATION, SUBSCRIPTION, QUERY
instance
( DecodeConstraint a,
Generic a,
Monad m,
Encode (Resolver o e m) b,
LiftOperation o
) =>
EncodeKind CUSTOM (Resolver o e m) (a -> b)
where
encodeKind (ContextValue f) =
getArguments
>>= liftResolverState . decodeArguments
>>= encode . f
-- GQL a -> Resolver b, MUTATION, SUBSCRIPTION, QUERY
instance
(Monad m, Encode (Resolver o e m) b, LiftOperation o) =>
EncodeKind CUSTOM (Resolver o e m) (Resolver o e m b)
where
encodeKind (ContextValue value) = value >>= encode
convertNode ::
forall m.
MonadError GQLError m =>
DataType (m (ResolverValue m)) ->
ResolverValue m
convertNode
DataType
{ dataTypeName,
tyIsUnion,
tyCons = cons@ConsRep {consFields, consName}
}
| tyIsUnion = encodeUnion consFields
| otherwise = mkObject dataTypeName (toFieldRes <$> consFields)
where
-- ENUM
encodeUnion ::
[FieldRep (m (ResolverValue m))] ->
ResolverValue m
encodeUnion [] = mkEnum consName
-- Type References --------------------------------------------------------------
encodeUnion [FieldRep {fieldTypeRef = TypeRef {typeConName}, fieldValue}]
| isUnionRef dataTypeName cons = ResLazy (ResObject (Just typeConName) <$> (fieldValue >>= requireObject))
-- Inline Union Types ----------------------------------------------------------------------------
encodeUnion fields = mkUnion consName (toFieldRes <$> fields)
-- Types & Constrains -------------------------------------------------------
exploreResolvers ::
forall m a.
( EncodeConstraint m a,
MonadError GQLError m
) =>
a ->
ResolverValue m
exploreResolvers =
convertNode
. toValue
( TypeConstraint (encode . runIdentity) ::
TypeConstraint (Encode m) (m (ResolverValue m)) Identity
)
(Proxy @IN)
----- HELPERS ----------------------------
objectResolvers ::
( EncodeConstraint m a,
MonadError GQLError m
) =>
a ->
ResolverState (ObjectTypeResolver m)
objectResolvers value = requireObject (exploreResolvers value)
type EncodeConstraint (m :: Type -> Type) a =
( GQLType a,
Generic a,
TypeRep (Encode m) (m (ResolverValue m)) (Rep a)
)
type EncodeObjectConstraint (o :: OperationType) e (m :: Type -> Type) a =
EncodeConstraint (Resolver o e m) (a (Resolver o e m))
type EncodeConstraints e m query mut sub =
( ChannelsConstraint e m sub,
EncodeObjectConstraint QUERY e m query,
EncodeObjectConstraint MUTATION e m mut,
EncodeObjectConstraint SUBSCRIPTION e m sub
)
deriveModel ::
forall e m query mut sub.
(Monad m, EncodeConstraints e m query mut sub) =>
RootResolver m e query mut sub ->
GQLResult (RootResolverValue e m)
deriveModel RootResolver {..} =
pure
RootResolverValue
{ queryResolver = objectResolvers queryResolver,
mutationResolver = objectResolvers mutationResolver,
subscriptionResolver = objectResolvers subscriptionResolver,
channelMap
}
where
channelMap
| __isEmptyType (Proxy :: Proxy (sub (Resolver SUBSCRIPTION e m))) = Nothing
| otherwise = Just (channelResolver subscriptionResolver)