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|
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE QuasiQuotes #-}
module Test.FragmentSpec
( spec
) where
import Data.Aeson (Value(..), object, (.=))
import qualified Data.HashMap.Strict as HashMap
import Data.List.NonEmpty (NonEmpty(..))
import Data.Text (Text)
import Language.GraphQL
import qualified Language.GraphQL.Schema as Schema
import Test.Hspec
( Spec
, describe
, it
, shouldBe
, shouldSatisfy
, shouldNotSatisfy
)
import Language.GraphQL.Type.Definition
import Language.GraphQL.Type.Schema
import Text.RawString.QQ (r)
size :: Schema.Resolver IO
size = Schema.scalar "size" $ return ("L" :: Text)
circumference :: Schema.Resolver IO
circumference = Schema.scalar "circumference" $ return (60 :: Int)
garment :: Text -> Schema.Resolver IO
garment typeName = Schema.object "garment" $ return
[ if typeName == "Hat" then circumference else size
, Schema.scalar "__typename" $ return typeName
]
inlineQuery :: Text
inlineQuery = [r|{
garment {
... on Hat {
circumference
}
... on Shirt {
size
}
}
}|]
hasErrors :: Value -> Bool
hasErrors (Object object') = HashMap.member "errors" object'
hasErrors _ = True
toSchema :: Schema.Resolver IO -> Schema IO
toSchema resolver = Schema { query = queryType, mutation = Nothing }
where
queryType = ObjectType "Query"
$ Schema.resolversToMap
$ resolver :| []
spec :: Spec
spec = do
describe "Inline fragment executor" $ do
it "chooses the first selection if the type matches" $ do
actual <- graphql (toSchema $ garment "Hat") inlineQuery
let expected = object
[ "data" .= object
[ "garment" .= object
[ "circumference" .= (60 :: Int)
]
]
]
in actual `shouldBe` expected
it "chooses the last selection if the type matches" $ do
actual <- graphql (toSchema $ garment "Shirt") inlineQuery
let expected = object
[ "data" .= object
[ "garment" .= object
[ "size" .= ("L" :: Text)
]
]
]
in actual `shouldBe` expected
it "embeds inline fragments without type" $ do
let sourceQuery = [r|{
garment {
circumference
... {
size
}
}
}|]
resolvers = Schema.object "garment" $ return [circumference, size]
actual <- graphql (toSchema resolvers) sourceQuery
let expected = object
[ "data" .= object
[ "garment" .= object
[ "circumference" .= (60 :: Int)
, "size" .= ("L" :: Text)
]
]
]
in actual `shouldBe` expected
it "evaluates fragments on Query" $ do
let sourceQuery = [r|{
... {
size
}
}|]
actual <- graphql (toSchema size) sourceQuery
actual `shouldNotSatisfy` hasErrors
describe "Fragment spread executor" $ do
it "evaluates fragment spreads" $ do
let sourceQuery = [r|
{
...circumferenceFragment
}
fragment circumferenceFragment on Hat {
circumference
}
|]
actual <- graphql (toSchema circumference) sourceQuery
let expected = object
[ "data" .= object
[ "circumference" .= (60 :: Int)
]
]
in actual `shouldBe` expected
it "evaluates nested fragments" $ do
let sourceQuery = [r|
{
garment {
...circumferenceFragment
}
}
fragment circumferenceFragment on Hat {
...hatFragment
}
fragment hatFragment on Hat {
circumference
}
|]
actual <- graphql (toSchema $ garment "Hat") sourceQuery
let expected = object
[ "data" .= object
[ "garment" .= object
[ "circumference" .= (60 :: Int)
]
]
]
in actual `shouldBe` expected
it "rejects recursive fragments" $ do
let sourceQuery = [r|
{
...circumferenceFragment
}
fragment circumferenceFragment on Hat {
...circumferenceFragment
}
|]
actual <- graphql (toSchema circumference) sourceQuery
actual `shouldSatisfy` hasErrors
it "considers type condition" $ do
let sourceQuery = [r|
{
garment {
...circumferenceFragment
...sizeFragment
}
}
fragment circumferenceFragment on Hat {
circumference
}
fragment sizeFragment on Shirt {
size
}
|]
expected = object
[ "data" .= object
[ "garment" .= object
[ "circumference" .= (60 :: Int)
]
]
]
actual <- graphql (toSchema $ garment "Hat") sourceQuery
actual `shouldBe` expected
|
