graphql/Data/GraphQL/Schema.hs
2016-03-14 01:01:24 +01:00

128 lines
3.5 KiB
Haskell

{-# LANGUAGE CPP #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE LambdaCase #-}
module Data.GraphQL.Schema
( Schema(..)
, Resolver
, Subs
, object
, objectA
, scalar
, scalarA
, array
, arrayA
, enum
, enumA
, resolvers
, fields
-- * AST Reexports
, Field
, Argument(..)
, Value(..)
) where
#if !MIN_VERSION_base(4,8,0)
import Control.Applicative (pure, (<|>))
import Data.Foldable (foldMap)
import Data.Traversable (traverse)
import Data.Monoid (Monoid(mempty,mappend))
#else
import Data.Monoid (Alt(Alt,getAlt))
#endif
import Control.Applicative (Alternative(..))
import Data.Maybe (catMaybes)
import Data.Foldable (fold)
import qualified Data.Aeson as Aeson
import Data.HashMap.Strict (HashMap)
import qualified Data.HashMap.Strict as HashMap
import Data.Text (Text)
import qualified Data.Text as T (null, unwords)
import Control.Arrow
import Data.GraphQL.AST
import Data.GraphQL.Error
data Schema f = Schema [Resolver f]
type Resolver f = Field -> CollectErrsT f Aeson.Object
type Subs = Text -> Maybe Text
object :: Alternative f => Text -> [Resolver f] -> Resolver f
object name resolvs = objectA name $ \case
[] -> resolvs
_ -> empty
objectA
:: Alternative f
=> Text -> ([Argument] -> [Resolver f]) -> Resolver f
objectA name f fld@(Field _ _ args _ sels) =
withField name (resolvers (f args) $ fields sels) fld
scalar :: (Alternative f, Aeson.ToJSON a) => Text -> a -> Resolver f
scalar name s = scalarA name $ \case
[] -> pure s
_ -> empty
scalarA
:: (Alternative f, Aeson.ToJSON a)
=> Text -> ([Argument] -> f a) -> Resolver f
scalarA name f fld@(Field _ _ args _ []) = withField name (errWrap $ f args) fld
scalarA _ _ _ = empty
array :: Alternative f => Text -> [[Resolver f]] -> Resolver f
array name resolvs = arrayA name $ \case
[] -> resolvs
_ -> empty
arrayA
:: Alternative f
=> Text -> ([Argument] -> [[Resolver f]]) -> Resolver f
arrayA name f fld@(Field _ _ args _ sels) =
withField name (joinErrs $ traverse (flip resolvers $ fields sels) $ f args) fld
enum :: Alternative f => Text -> f [Text] -> Resolver f
enum name enums = enumA name $ \case
[] -> enums
_ -> empty
enumA :: Alternative f => Text -> ([Argument] -> f [Text]) -> Resolver f
enumA name f fld@(Field _ _ args _ []) = withField name (errWrap $ f args) fld
enumA _ _ _ = empty
withField
:: (Alternative f, Aeson.ToJSON a)
=> Text -> CollectErrsT f a -> Field -> CollectErrsT f (HashMap Text Aeson.Value)
withField name f (Field alias name' _ _ _) =
if name == name'
then fmap (first $ HashMap.singleton aliasOrName . Aeson.toJSON) f
else empty
where
aliasOrName = if T.null alias then name' else alias
resolvers :: Alternative f => [Resolver f] -> [Field] -> CollectErrsT f Aeson.Value
resolvers resolvs =
fmap (first Aeson.toJSON . fold)
. traverse (\fld -> (getAlt $ foldMap (Alt . ($ fld)) resolvs) <|> errmsg fld)
where errmsg (Field alias name _ _ _) = addErrMsg msg $ (errWrap . pure) val
where val = HashMap.singleton aliasOrName Aeson.Null
msg = T.unwords ["field", name, "not resolved."]
aliasOrName = if T.null alias then name else alias
field :: Selection -> Maybe Field
field (SelectionField x) = Just x
field _ = Nothing
fields :: SelectionSet -> [Field]
fields = catMaybes . fmap field
#if !MIN_VERSION_base(4,8,0)
newtype Alt f a = Alt {getAlt :: f a}
instance Alternative f => Monoid (Alt f a) where
mempty = Alt empty
Alt x `mappend` Alt y = Alt $ x <|> y
#endif