{- This Source Code Form is subject to the terms of the Mozilla Public License, v. 2.0. If a copy of the MPL was not distributed with this file, You can obtain one at https://mozilla.org/MPL/2.0/. -} {-# LANGUAGE ExplicitForAll #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ViewPatterns #-} -- | Types and functions used for input and result coercion. module Language.GraphQL.Execute.Coerce ( Output(..) , Serialize(..) , VariableValue(..) , coerceInputLiteral , matchFieldValues ) where import qualified Data.Aeson as Aeson import Data.Int (Int32) import Data.HashMap.Strict (HashMap) import qualified Data.HashMap.Strict as HashMap import Data.Map.Strict (Map) import Data.String (IsString(..)) import Data.Text (Text) import qualified Data.Text.Lazy as Text.Lazy import qualified Data.Text.Lazy.Builder as Text.Builder import qualified Data.Text.Lazy.Builder.Int as Text.Builder import Data.Scientific (toBoundedInteger, toRealFloat) import Language.GraphQL.AST (Name) import qualified Language.GraphQL.Type as Type import qualified Language.GraphQL.Type.In as In import qualified Language.GraphQL.Type.Out as Out -- | Since variables are passed separately from the query, in an independent -- format, they should be first coerced to the internal representation used by -- this implementation. class VariableValue a where -- | Only a basic, format-specific, coercion must be done here. Type -- correctness or nullability shouldn't be validated here, they will be -- validated later. The type information is provided only as a hint. -- -- For example @GraphQL@ prohibits the coercion from a 't:Float' to an -- 't:Int', but @JSON@ doesn't have integers, so whole numbers should be -- coerced to 't:Int` when receiving variables as a JSON object. The same -- holds for 't:Enum'. There are formats that support enumerations, @JSON@ -- doesn't, so the type information is given and 'coerceVariableValue' can -- check that an 't:Enum' is expected and treat the given value -- appropriately. Even checking whether this value is a proper member of the -- corresponding 't:Enum' type isn't required here, since this can be -- checked independently. -- -- Another example is an @ID@. @GraphQL@ explicitly allows to coerce -- integers and strings to @ID@s, so if an @ID@ is received as an integer, -- it can be left as is and will be coerced later. -- -- If a value cannot be coerced without losing information, 'Nothing' should -- be returned, the coercion will fail then and the query won't be executed. coerceVariableValue :: In.Type -- ^ Expected type (variable type given in the query). -> a -- ^ Variable value being coerced. -> Maybe Type.Value -- ^ Coerced value on success, 'Nothing' otherwise. instance VariableValue Aeson.Value where coerceVariableValue _ Aeson.Null = Just Type.Null coerceVariableValue (In.ScalarBaseType scalarType) value | (Aeson.String stringValue) <- value = Just $ Type.String stringValue | (Aeson.Bool booleanValue) <- value = Just $ Type.Boolean booleanValue | (Aeson.Number numberValue) <- value , (Type.ScalarType "Float" _) <- scalarType = Just $ Type.Float $ toRealFloat numberValue | (Aeson.Number numberValue) <- value = -- ID or Int Type.Int <$> toBoundedInteger numberValue coerceVariableValue (In.EnumBaseType _) (Aeson.String stringValue) = Just $ Type.Enum stringValue coerceVariableValue (In.InputObjectBaseType objectType) value | (Aeson.Object objectValue) <- value = do let (In.InputObjectType _ _ inputFields) = objectType (newObjectValue, resultMap) <- foldWithKey objectValue inputFields if HashMap.null newObjectValue then Just $ Type.Object resultMap else Nothing where foldWithKey objectValue = HashMap.foldrWithKey matchFieldValues' $ Just (objectValue, HashMap.empty) matchFieldValues' _ _ Nothing = Nothing matchFieldValues' fieldName inputField (Just (objectValue, resultMap)) = let (In.InputField _ fieldType _) = inputField insert = flip (HashMap.insert fieldName) resultMap newObjectValue = HashMap.delete fieldName objectValue in case HashMap.lookup fieldName objectValue of Just variableValue -> do coerced <- coerceVariableValue fieldType variableValue pure (newObjectValue, insert coerced) Nothing -> Just (objectValue, resultMap) coerceVariableValue (In.ListBaseType listType) value | (Aeson.Array arrayValue) <- value = Type.List <$> foldr foldVector (Just []) arrayValue | otherwise = coerceVariableValue listType value where foldVector _ Nothing = Nothing foldVector variableValue (Just list) = do coerced <- coerceVariableValue listType variableValue pure $ coerced : list coerceVariableValue _ _ = Nothing -- | Looks up a value by name in the given map, coerces it and inserts into the -- result map. If the coercion fails, returns 'Nothing'. If the value isn't -- given, but a default value is known, inserts the default value into the -- result map. Otherwise it fails with 'Nothing' if the Input Type is a -- Non-Nullable type, or returns the unchanged, original map. matchFieldValues :: forall a . (In.Type -> a -> Maybe Type.Value) -> HashMap Name a -> Name -> In.Type -> Maybe Type.Value -> Maybe (HashMap Name Type.Value) -> Maybe (HashMap Name Type.Value) matchFieldValues coerce values' fieldName type' defaultValue resultMap = case HashMap.lookup fieldName values' of Just variableValue -> coerceRuntimeValue $ coerce type' variableValue Nothing | Just value <- defaultValue -> HashMap.insert fieldName value <$> resultMap | Nothing <- defaultValue , In.isNonNullType type' -> Nothing | otherwise -> resultMap where coerceRuntimeValue (Just Type.Null) | In.isNonNullType type' = Nothing coerceRuntimeValue coercedValue = HashMap.insert fieldName <$> coercedValue <*> resultMap -- | Coerces operation arguments according to the input coercion rules for the -- corresponding types. coerceInputLiteral :: In.Type -> Type.Value -> Maybe Type.Value coerceInputLiteral (In.isNonNullType -> False) Type.Null = Just Type.Null coerceInputLiteral (In.ScalarBaseType type') value | (Type.String stringValue) <- value , (Type.ScalarType "String" _) <- type' = Just $ Type.String stringValue | (Type.Boolean booleanValue) <- value , (Type.ScalarType "Boolean" _) <- type' = Just $ Type.Boolean booleanValue | (Type.Int intValue) <- value , (Type.ScalarType "Int" _) <- type' = Just $ Type.Int intValue | (Type.Float floatValue) <- value , (Type.ScalarType "Float" _) <- type' = Just $ Type.Float floatValue | (Type.Int intValue) <- value , (Type.ScalarType "Float" _) <- type' = Just $ Type.Float $ fromIntegral intValue | (Type.String stringValue) <- value , (Type.ScalarType "ID" _) <- type' = Just $ Type.String stringValue | (Type.Int intValue) <- value , (Type.ScalarType "ID" _) <- type' = Just $ decimal intValue where decimal = Type.String . Text.Lazy.toStrict . Text.Builder.toLazyText . Text.Builder.decimal coerceInputLiteral (In.EnumBaseType type') (Type.Enum enumValue) | member enumValue type' = Just $ Type.Enum enumValue where member value (Type.EnumType _ _ members) = HashMap.member value members coerceInputLiteral (In.InputObjectBaseType type') (Type.Object values) = let (In.InputObjectType _ _ inputFields) = type' in Type.Object <$> HashMap.foldrWithKey (matchFieldValues' values) (Just HashMap.empty) inputFields where matchFieldValues' values' fieldName (In.InputField _ inputFieldType defaultValue) = matchFieldValues coerceInputLiteral values' fieldName inputFieldType defaultValue coerceInputLiteral (In.ListBaseType listType) (Type.List list) = Type.List <$> traverse (coerceInputLiteral listType) list coerceInputLiteral (In.ListBaseType listType) singleton = wrapSingleton listType singleton where wrapSingleton (In.ListBaseType listType') singleton' = Type.List <$> sequence [wrapSingleton listType' singleton'] wrapSingleton listType' singleton' = Type.List <$> sequence [coerceInputLiteral listType' singleton'] coerceInputLiteral _ _ = Nothing -- | 'Serialize' describes how a @GraphQL@ value should be serialized. class Serialize a where -- | Serializes a @GraphQL@ value according to the given serialization -- format. -- -- Type infomration is given as a hint, e.g. if you need to know what type -- is being serialized to serialize it properly. Don't do any validation for -- @GraphQL@ built-in types here. -- -- If the value cannot be serialized without losing information, return -- 'Nothing' — it will cause a field error. serialize :: forall m . Out.Type m -- ^ Expected output type. -> Output a -- ^ The value to be serialized. -> Maybe a -- ^ Serialized value on success or 'Nothing'. -- | __null__ representation in the given serialization format. null :: a -- | Intermediate type used to serialize a @GraphQL@ value. -- -- The serialization is done during the execution, and 'Output' contains -- already serialized data (in 'List' and 'Object') as well as the new layer -- that has to be serialized in the current step. So 'Output' is parameterized -- by the serialization format. data Output a = Int Int32 | Float Double | String Text | Boolean Bool | Enum Name | List [a] | Object (Map Name a) deriving (Eq, Show) instance forall a. IsString (Output a) where fromString = String . fromString instance Serialize Aeson.Value where serialize (Out.ScalarBaseType scalarType) value | Type.ScalarType "Int" _ <- scalarType , Int int <- value = Just $ Aeson.toJSON int | Type.ScalarType "Float" _ <- scalarType , Float float <- value = Just $ Aeson.toJSON float | Type.ScalarType "String" _ <- scalarType , String string <- value = Just $ Aeson.String string | Type.ScalarType "ID" _ <- scalarType , String string <- value = Just $ Aeson.String string | Type.ScalarType "Boolean" _ <- scalarType , Boolean boolean <- value = Just $ Aeson.Bool boolean serialize _ (Enum enum) = Just $ Aeson.String enum serialize _ (List list) = Just $ Aeson.toJSON list serialize _ (Object object) = Just $ Aeson.toJSON object serialize _ _ = Nothing null = Aeson.Null