forked from OSS/graphql
153 lines
4.6 KiB
Haskell
153 lines
4.6 KiB
Haskell
{-# LANGUAGE LambdaCase #-}
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-- | This module provides a representation of a @GraphQL@ Schema in addition to
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-- functions for defining and manipulating Schemas.
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module Data.GraphQL.Schema
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( Schema
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, Resolver
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, Subs
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, object
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, object'
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, objectA
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, objectA'
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, scalar
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, scalarA
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, array
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, array'
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, arrayA
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, arrayA'
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, enum
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, enumA
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, resolve
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-- * AST Reexports
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, Field
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, Argument(..)
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, Value(..)
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) where
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import Control.Applicative (Alternative(empty))
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import Data.Foldable (fold)
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import Data.List.NonEmpty (NonEmpty)
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import Data.Maybe (fromMaybe)
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import Data.Monoid (Alt(Alt,getAlt))
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import qualified Data.Aeson as Aeson
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import Data.HashMap.Strict (HashMap)
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import qualified Data.HashMap.Strict as HashMap
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import Data.Text (Text)
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import Data.GraphQL.AST.Core
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-- | A GraphQL schema.
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-- @f@ is usually expected to be an instance of 'Alternative'.
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type Schema f = NonEmpty (Resolver f)
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-- | Resolves a 'Field' into an @Aeson.@'Aeson.Object' with error information
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-- (or 'empty'). @f@ is usually expected to be an instance of 'Alternative'.
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type Resolver f = Field -> f Aeson.Object
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type Resolvers f = [Resolver f]
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type Fields = [Field]
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type Arguments = [Argument]
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-- | Variable substitution function.
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type Subs = Name -> Maybe Value
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-- | Create a new 'Resolver' with the given 'Name' from the given 'Resolver's.
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object :: Alternative f => Name -> Resolvers f -> Resolver f
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object name resolvers = objectA name $ \case
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[] -> resolvers
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_ -> empty
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-- | Like 'object' but also taking 'Argument's.
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objectA
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:: Alternative f
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=> Name -> (Arguments -> Resolvers f) -> Resolver f
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objectA name f fld@(Field _ _ args flds) = withField name (resolve (f args) flds) fld
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-- | Create a named 'Resolver' from a list of 'Resolver's.
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object' :: (Alternative f, Monad f) => Text -> f [Resolver f] -> Resolver f
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object' name resolvs = objectA' name $ \case
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[] -> resolvs
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_ -> empty
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-- | Like 'object'' but also taking 'Argument's.
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objectA'
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:: (Alternative f, Monad f)
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=> Text -> ([Argument] -> f [Resolver f]) -> Resolver f
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objectA' name f fld@(Field _ _ args flds) = do
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resolvs <- f args
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withField name (resolve resolvs flds) fld
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-- | A scalar represents a primitive value, like a string or an integer.
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scalar :: (Alternative f, Aeson.ToJSON a) => Name -> a -> Resolver f
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scalar name s = scalarA name $ \case
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[] -> pure s
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_ -> empty
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-- | Like 'scalar' but also taking 'Argument's.
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scalarA
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:: (Alternative f, Aeson.ToJSON a)
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=> Name -> (Arguments -> f a) -> Resolver f
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scalarA name f fld@(Field _ _ args []) = withField name (f args) fld
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scalarA _ _ _ = empty
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array :: Alternative f => Name -> [Resolvers f] -> Resolver f
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array name resolvers = arrayA name $ \case
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[] -> resolvers
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_ -> empty
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-- | Like 'array' but also taking 'Argument's.
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arrayA
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:: Alternative f
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=> Text -> (Arguments -> [Resolvers f]) -> Resolver f
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arrayA name f fld@(Field _ _ args sels) =
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withField name (traverse (`resolve` sels) $ f args) fld
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-- | Like 'object'' but taking lists of 'Resolver's instead of a single list.
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array' :: (Alternative f, Monad f) => Text -> f [[Resolver f]] -> Resolver f
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array' name resolvs = arrayA' name $ \case
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[] -> resolvs
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_ -> empty
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-- | Like 'array'' but also taking 'Argument's.
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arrayA'
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:: (Alternative f, Monad f)
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=> Text -> ([Argument] -> f [[Resolver f]]) -> Resolver f
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arrayA' name f fld@(Field _ _ args sels) = do
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resolvs <- f args
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withField name (traverse (`resolve` sels) resolvs) fld
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-- | Represents one of a finite set of possible values.
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-- Used in place of a 'scalar' when the possible responses are easily enumerable.
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enum :: Alternative f => Text -> f [Text] -> Resolver f
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enum name enums = enumA name $ \case
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[] -> enums
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_ -> empty
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-- | Like 'enum' but also taking 'Argument's.
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enumA :: Alternative f => Text -> ([Argument] -> f [Text]) -> Resolver f
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enumA name f fld@(Field _ _ args []) = withField name (f args) fld
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enumA _ _ _ = empty
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-- | Helper function to facilitate 'Argument' handling.
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withField
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:: (Alternative f, Aeson.ToJSON a)
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=> Name -> f a -> Field -> f (HashMap Text Aeson.Value)
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withField name f (Field alias name' _ _) =
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if name == name'
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then fmap (HashMap.singleton aliasOrName . Aeson.toJSON) f
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else empty
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where
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aliasOrName = fromMaybe name alias
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-- | Takes a list of 'Resolver's and a list of 'Field's and applies each
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-- 'Resolver' to each 'Field'. Resolves into a value containing the
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-- resolved 'Field', or a null value and error information.
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resolve :: Alternative f => Resolvers f -> Fields -> f Aeson.Value
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resolve resolvers =
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fmap (Aeson.toJSON . fold)
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. traverse (\fld -> getAlt (foldMap (Alt . ($ fld)) resolvers))
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