224 lines
7.1 KiB
Haskell
224 lines
7.1 KiB
Haskell
{- This Source Code Form is subject to the terms of the Mozilla Public License,
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v. 2.0. If a copy of the MPL was not distributed with this file, You can
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obtain one at https://mozilla.org/MPL/2.0/. -}
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{-# LANGUAGE OverloadedStrings #-}
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{-# LANGUAGE QuasiQuotes #-}
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module Test.FragmentSpec
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( spec
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) where
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import Data.Aeson ((.=))
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import qualified Data.Aeson as Aeson
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import qualified Data.HashMap.Strict as HashMap
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import Data.Text (Text)
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import Language.GraphQL
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import Language.GraphQL.Type
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import qualified Language.GraphQL.Type.Out as Out
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import Test.Hspec (Spec, describe, it)
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import Test.Hspec.GraphQL
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import Text.RawString.QQ (r)
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size :: (Text, Value)
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size = ("size", String "L")
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circumference :: (Text, Value)
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circumference = ("circumference", Int 60)
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garment :: Text -> (Text, Value)
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garment typeName =
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("garment", Object $ HashMap.fromList
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[ if typeName == "Hat" then circumference else size
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, ("__typename", String typeName)
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]
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)
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inlineQuery :: Text
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inlineQuery = [r|{
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garment {
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... on Hat {
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circumference
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}
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... on Shirt {
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size
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}
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}
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}|]
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shirtType :: Out.ObjectType IO
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shirtType = Out.ObjectType "Shirt" Nothing []
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$ HashMap.fromList
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[ ("size", sizeFieldType)
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, ("circumference", circumferenceFieldType)
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]
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hatType :: Out.ObjectType IO
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hatType = Out.ObjectType "Hat" Nothing []
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$ HashMap.fromList
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[ ("size", sizeFieldType)
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, ("circumference", circumferenceFieldType)
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]
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circumferenceFieldType :: Out.Resolver IO
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circumferenceFieldType
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= Out.ValueResolver (Out.Field Nothing (Out.NamedScalarType int) mempty)
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$ pure $ snd circumference
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sizeFieldType :: Out.Resolver IO
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sizeFieldType
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= Out.ValueResolver (Out.Field Nothing (Out.NamedScalarType string) mempty)
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$ pure $ snd size
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toSchema :: Text -> (Text, Value) -> Schema IO
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toSchema t (_, resolve) = Schema
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{ query = queryType, mutation = Nothing, subscription = Nothing }
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where
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unionMember = if t == "Hat" then hatType else shirtType
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typeNameField = Out.Field Nothing (Out.NamedScalarType string) mempty
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garmentField = Out.Field Nothing (Out.NamedObjectType unionMember) mempty
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queryType =
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case t of
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"circumference" -> hatType
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"size" -> shirtType
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_ -> Out.ObjectType "Query" Nothing []
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$ HashMap.fromList
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[ ("garment", ValueResolver garmentField (pure resolve))
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, ("__typename", ValueResolver typeNameField (pure $ String "Shirt"))
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]
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spec :: Spec
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spec = do
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describe "Inline fragment executor" $ do
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it "chooses the first selection if the type matches" $ do
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actual <- graphql (toSchema "Hat" $ garment "Hat") inlineQuery
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let expected = HashMap.singleton "data"
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$ Aeson.object
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[ "garment" .= Aeson.object
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[ "circumference" .= (60 :: Int)
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]
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]
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in actual `shouldResolveTo` expected
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it "chooses the last selection if the type matches" $ do
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actual <- graphql (toSchema "Shirt" $ garment "Shirt") inlineQuery
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let expected = HashMap.singleton "data"
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$ Aeson.object
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[ "garment" .= Aeson.object
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[ "size" .= ("L" :: Text)
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]
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]
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in actual `shouldResolveTo` expected
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it "embeds inline fragments without type" $ do
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let sourceQuery = [r|{
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garment {
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circumference
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... {
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size
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}
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}
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}|]
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resolvers = ("garment", Object $ HashMap.fromList [circumference, size])
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actual <- graphql (toSchema "garment" resolvers) sourceQuery
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let expected = HashMap.singleton "data"
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$ Aeson.object
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[ "garment" .= Aeson.object
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[ "circumference" .= (60 :: Int)
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, "size" .= ("L" :: Text)
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]
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]
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in actual `shouldResolveTo` expected
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it "evaluates fragments on Query" $ do
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let sourceQuery = [r|{
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... {
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size
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}
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}|]
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in graphql (toSchema "size" size) `shouldResolve` sourceQuery
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describe "Fragment spread executor" $ do
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it "evaluates fragment spreads" $ do
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let sourceQuery = [r|
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{
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...circumferenceFragment
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}
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fragment circumferenceFragment on Hat {
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circumference
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}
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|]
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actual <- graphql (toSchema "circumference" circumference) sourceQuery
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let expected = HashMap.singleton "data"
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$ Aeson.object
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[ "circumference" .= (60 :: Int)
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]
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in actual `shouldResolveTo` expected
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it "evaluates nested fragments" $ do
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let sourceQuery = [r|
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{
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garment {
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...circumferenceFragment
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}
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}
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fragment circumferenceFragment on Hat {
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...hatFragment
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}
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fragment hatFragment on Hat {
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circumference
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}
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|]
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actual <- graphql (toSchema "Hat" $ garment "Hat") sourceQuery
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let expected = HashMap.singleton "data"
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$ Aeson.object
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[ "garment" .= Aeson.object
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[ "circumference" .= (60 :: Int)
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]
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]
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in actual `shouldResolveTo` expected
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it "rejects recursive fragments" $ do
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let expected = HashMap.singleton "data" $ Aeson.object []
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sourceQuery = [r|
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{
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...circumferenceFragment
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}
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fragment circumferenceFragment on Hat {
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...circumferenceFragment
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}
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|]
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actual <- graphql (toSchema "circumference" circumference) sourceQuery
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actual `shouldResolveTo` expected
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it "considers type condition" $ do
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let sourceQuery = [r|
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{
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garment {
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...circumferenceFragment
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...sizeFragment
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}
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}
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fragment circumferenceFragment on Hat {
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circumference
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}
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fragment sizeFragment on Shirt {
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size
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}
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|]
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expected = HashMap.singleton "data"
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$ Aeson.object
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[ "garment" .= Aeson.object
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[ "circumference" .= (60 :: Int)
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]
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]
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actual <- graphql (toSchema "Hat" $ garment "Hat") sourceQuery
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actual `shouldResolveTo` expected
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