{-# LANGUAGE CPP #-}
{-# LANGUAGE DefaultSignatures #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE KindSignatures #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE OverloadedLists #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE PackageImports #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE TypeSynonymInstances #-}
{-# LANGUAGE UndecidableInstances #-}
#if __GLASGOW_HASKELL__ >= 800
{-# OPTIONS_GHC -Wno-redundant-constraints #-}
{-# OPTIONS_GHC -Wno-unticked-promoted-constructors #-}
#endif
#include "overlapping-compat.h"
module Data.Swagger.Internal.Schema where
import Prelude ()
import Prelude.Compat
import Control.Lens
import Data.Data.Lens (template)
import Control.Monad
import Control.Monad.Writer
import Data.Aeson
import Data.Char
import Data.Data (Data)
import Data.Foldable (traverse_)
import Data.HashMap.Strict (HashMap)
import qualified Data.HashMap.Strict as HashMap
import "unordered-containers" Data.HashSet (HashSet)
import qualified "unordered-containers" Data.HashSet as HashSet
import qualified Data.HashMap.Strict.InsOrd as InsOrdHashMap
import Data.Int
import Data.IntSet (IntSet)
import Data.IntMap (IntMap)
import Data.Map (Map)
import Data.Proxy
import Data.Scientific (Scientific)
import Data.Set (Set)
import qualified Data.Text as T
import qualified Data.Text.Lazy as TL
import Data.Time
import qualified Data.Vector as V
import qualified Data.Vector.Primitive as VP
import qualified Data.Vector.Storable as VS
import qualified Data.Vector.Unboxed as VU
import Data.Word
import GHC.Generics
import qualified Data.UUID.Types as UUID
import Data.Swagger.Declare
import Data.Swagger.Internal
import Data.Swagger.Internal.ParamSchema (ToParamSchema(..))
import Data.Swagger.Lens hiding (name, schema)
import qualified Data.Swagger.Lens as Swagger
import Data.Swagger.SchemaOptions
#ifdef __DOCTEST__
import Data.Swagger.Lens (name, schema)
#endif
#if __GLASGOW_HASKELL__ < 800
#else
import qualified Data.ByteString as BS
import qualified Data.ByteString.Lazy as BSL
import GHC.TypeLits (TypeError, ErrorMessage(..))
#endif
unnamed :: Schema -> NamedSchema
unnamed schema = NamedSchema Nothing schema
named :: T.Text -> Schema -> NamedSchema
named name schema = NamedSchema (Just name) schema
plain :: Schema -> Declare (Definitions Schema) NamedSchema
plain = pure . unnamed
unname :: NamedSchema -> NamedSchema
unname (NamedSchema _ schema) = unnamed schema
rename :: Maybe T.Text -> NamedSchema -> NamedSchema
rename name (NamedSchema _ schema) = NamedSchema name schema
class ToSchema a where
declareNamedSchema :: proxy a -> Declare (Definitions Schema) NamedSchema
default declareNamedSchema :: (Generic a, GToSchema (Rep a)) => proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = genericDeclareNamedSchema defaultSchemaOptions
declareSchema :: ToSchema a => proxy a -> Declare (Definitions Schema) Schema
declareSchema = fmap _namedSchemaSchema . declareNamedSchema
toNamedSchema :: ToSchema a => proxy a -> NamedSchema
toNamedSchema = undeclare . declareNamedSchema
schemaName :: ToSchema a => proxy a -> Maybe T.Text
schemaName = _namedSchemaName . toNamedSchema
toSchema :: ToSchema a => proxy a -> Schema
toSchema = _namedSchemaSchema . toNamedSchema
toSchemaRef :: ToSchema a => proxy a -> Referenced Schema
toSchemaRef = undeclare . declareSchemaRef
declareSchemaRef :: ToSchema a => proxy a -> Declare (Definitions Schema) (Referenced Schema)
declareSchemaRef proxy = do
case toNamedSchema proxy of
NamedSchema (Just name) schema -> do
known <- looks (InsOrdHashMap.member name)
when (not known) $ do
declare [(name, schema)]
void $ declareNamedSchema proxy
return $ Ref (Reference name)
_ -> Inline <$> declareSchema proxy
inlineSchemasWhen :: Data s => (T.Text -> Bool) -> (Definitions Schema) -> s -> s
inlineSchemasWhen p defs = template %~ deref
where
deref r@(Ref (Reference name))
| p name =
case InsOrdHashMap.lookup name defs of
Just schema -> Inline (inlineSchemasWhen p defs schema)
Nothing -> r
| otherwise = r
deref (Inline schema) = Inline (inlineSchemasWhen p defs schema)
inlineSchemas :: Data s => [T.Text] -> (Definitions Schema) -> s -> s
inlineSchemas names = inlineSchemasWhen (`elem` names)
inlineAllSchemas :: Data s => (Definitions Schema) -> s -> s
inlineAllSchemas = inlineSchemasWhen (const True)
toInlinedSchema :: ToSchema a => proxy a -> Schema
toInlinedSchema proxy = inlineAllSchemas defs schema
where
(defs, schema) = runDeclare (declareSchema proxy) mempty
inlineNonRecursiveSchemas :: Data s => (Definitions Schema) -> s -> s
inlineNonRecursiveSchemas defs = inlineSchemasWhen nonRecursive defs
where
nonRecursive name =
case InsOrdHashMap.lookup name defs of
Just schema -> name `notElem` execDeclare (usedNames schema) mempty
Nothing -> False
usedNames schema = traverse_ schemaRefNames (schema ^.. template)
schemaRefNames :: Referenced Schema -> Declare [T.Text] ()
schemaRefNames ref = case ref of
Ref (Reference name) -> do
seen <- looks (name `elem`)
when (not seen) $ do
declare [name]
traverse_ usedNames (InsOrdHashMap.lookup name defs)
Inline subschema -> usedNames subschema
binarySchema :: Schema
binarySchema = mempty
& type_ .~ SwaggerString
& format ?~ "binary"
byteSchema :: Schema
byteSchema = mempty
& type_ .~ SwaggerString
& format ?~ "byte"
passwordSchema :: Schema
passwordSchema = mempty
& type_ .~ SwaggerString
& format ?~ "password"
sketchSchema :: ToJSON a => a -> Schema
sketchSchema = sketch . toJSON
where
sketch Null = go Null
sketch js@(Bool _) = go js
sketch js = go js & example ?~ js
go Null = mempty & type_ .~ SwaggerNull
go (Bool _) = mempty & type_ .~ SwaggerBoolean
go (String _) = mempty & type_ .~ SwaggerString
go (Number _) = mempty & type_ .~ SwaggerNumber
go (Array xs) = mempty
& type_ .~ SwaggerArray
& items ?~ case ischema of
Just s -> SwaggerItemsObject (Inline s)
_ -> SwaggerItemsArray (map Inline ys)
where
ys = map go (V.toList xs)
allSame = and ((zipWith (==)) ys (tail ys))
ischema = case ys of
(z:_) | allSame -> Just z
_ -> Nothing
go (Object o) = mempty
& type_ .~ SwaggerObject
& required .~ HashMap.keys o
& properties .~ fmap (Inline . go) (InsOrdHashMap.fromHashMap o)
sketchStrictSchema :: ToJSON a => a -> Schema
sketchStrictSchema = go . toJSON
where
go Null = mempty & type_ .~ SwaggerNull
go js@(Bool _) = mempty
& type_ .~ SwaggerBoolean
& enum_ ?~ [js]
go js@(String s) = mempty
& type_ .~ SwaggerString
& maxLength ?~ fromIntegral (T.length s)
& minLength ?~ fromIntegral (T.length s)
& pattern ?~ s
& enum_ ?~ [js]
go js@(Number n) = mempty
& type_ .~ SwaggerNumber
& maximum_ ?~ n
& minimum_ ?~ n
& multipleOf ?~ n
& enum_ ?~ [js]
go js@(Array xs) = mempty
& type_ .~ SwaggerArray
& maxItems ?~ fromIntegral sz
& minItems ?~ fromIntegral sz
& items ?~ SwaggerItemsArray (map (Inline . go) (V.toList xs))
& uniqueItems ?~ allUnique
& enum_ ?~ [js]
where
sz = length xs
allUnique = sz == HashSet.size (HashSet.fromList (V.toList xs))
go js@(Object o) = mempty
& type_ .~ SwaggerObject
& required .~ names
& properties .~ fmap (Inline . go) (InsOrdHashMap.fromHashMap o)
& maxProperties ?~ fromIntegral (length names)
& minProperties ?~ fromIntegral (length names)
& enum_ ?~ [js]
where
names = HashMap.keys o
class GToSchema (f :: * -> *) where
gdeclareNamedSchema :: SchemaOptions -> proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
instance OVERLAPPABLE_ ToSchema a => ToSchema [a] where
declareNamedSchema _ = do
ref <- declareSchemaRef (Proxy :: Proxy a)
return $ unnamed $ mempty
& type_ .~ SwaggerArray
& items ?~ SwaggerItemsObject ref
instance OVERLAPPING_ ToSchema String where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Bool where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Integer where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Int where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Int8 where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Int16 where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Int32 where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Int64 where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Word where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Word8 where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Word16 where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Word32 where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Word64 where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Char where
declareNamedSchema proxy = plain (paramSchemaToSchema proxy)
& mapped.Swagger.schema.example ?~ toJSON '?'
instance ToSchema Scientific where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Double where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Float where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema a => ToSchema (Maybe a) where
declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy a)
instance (ToSchema a, ToSchema b) => ToSchema (Either a b)
instance ToSchema () where
declareNamedSchema _ = pure (NamedSchema Nothing nullarySchema)
instance ToSchema UUID.UUID where
declareNamedSchema p = pure $ named "UUID" $ paramSchemaToSchema p
& example ?~ toJSON (UUID.toText UUID.nil)
instance (ToSchema a, ToSchema b) => ToSchema (a, b)
instance (ToSchema a, ToSchema b, ToSchema c) => ToSchema (a, b, c)
instance (ToSchema a, ToSchema b, ToSchema c, ToSchema d) => ToSchema (a, b, c, d)
instance (ToSchema a, ToSchema b, ToSchema c, ToSchema d, ToSchema e) => ToSchema (a, b, c, d, e)
instance (ToSchema a, ToSchema b, ToSchema c, ToSchema d, ToSchema e, ToSchema f) => ToSchema (a, b, c, d, e, f)
instance (ToSchema a, ToSchema b, ToSchema c, ToSchema d, ToSchema e, ToSchema f, ToSchema g) => ToSchema (a, b, c, d, e, f, g)
timeSchema :: T.Text -> Schema
timeSchema fmt = mempty
& type_ .~ SwaggerString
& format ?~ fmt
instance ToSchema Day where
declareNamedSchema _ = pure $ named "Day" $ timeSchema "date"
& example ?~ toJSON (fromGregorian 2016 7 22)
instance ToSchema LocalTime where
declareNamedSchema _ = pure $ named "LocalTime" $ timeSchema "yyyy-mm-ddThh:MM:ss"
& example ?~ toJSON (LocalTime (fromGregorian 2016 7 22) (TimeOfDay 7 40 0))
instance ToSchema ZonedTime where
declareNamedSchema _ = pure $ named "ZonedTime" $ timeSchema "date-time"
& example ?~ toJSON (ZonedTime (LocalTime (fromGregorian 2016 7 22) (TimeOfDay 7 40 0)) (hoursToTimeZone 3))
instance ToSchema NominalDiffTime where
declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy Integer)
instance ToSchema UTCTime where
declareNamedSchema _ = pure $ named "UTCTime" $ timeSchema "yyyy-mm-ddThh:MM:ssZ"
& example ?~ toJSON (UTCTime (fromGregorian 2016 7 22) 0)
instance ToSchema T.Text where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema TL.Text where declareNamedSchema = plain . paramSchemaToSchema
#if __GLASGOW_HASKELL__ < 800
#else
type family ToSchemaByteStringError bs where
ToSchemaByteStringError bs = TypeError
( Text "Impossible to have an instance " :<>: ShowType (ToSchema bs) :<>: Text "."
:$$: Text "Please, use a newtype wrapper around " :<>: ShowType bs :<>: Text " instead."
:$$: Text "Consider using byteSchema or binarySchema templates." )
instance ToSchemaByteStringError BS.ByteString => ToSchema BS.ByteString where declareNamedSchema = error "impossible"
instance ToSchemaByteStringError BSL.ByteString => ToSchema BSL.ByteString where declareNamedSchema = error "impossible"
#endif
instance ToSchema IntSet where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy (Set Int))
instance ToSchema a => ToSchema (IntMap a) where
declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy [(Int, a)])
#if MIN_VERSION_aeson(1,0,0)
instance (ToJSONKey k, ToSchema k, ToSchema v) => ToSchema (Map k v) where
declareNamedSchema _ = case toJSONKey :: ToJSONKeyFunction k of
ToJSONKeyText _ _ -> declareObjectMapSchema
ToJSONKeyValue _ _ -> declareNamedSchema (Proxy :: Proxy [(k, v)])
where
declareObjectMapSchema = do
schema <- declareSchemaRef (Proxy :: Proxy v)
return $ unnamed $ mempty
& type_ .~ SwaggerObject
& additionalProperties ?~ schema
instance (ToJSONKey k, ToSchema k, ToSchema v) => ToSchema (HashMap k v) where
declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy (Map k v))
#else
instance ToSchema a => ToSchema (Map String a) where
declareNamedSchema _ = do
schema <- declareSchemaRef (Proxy :: Proxy a)
return $ unnamed $ mempty
& type_ .~ SwaggerObject
& additionalProperties ?~ schema
instance ToSchema a => ToSchema (Map T.Text a) where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy (Map String a))
instance ToSchema a => ToSchema (Map TL.Text a) where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy (Map String a))
instance ToSchema a => ToSchema (HashMap String a) where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy (Map String a))
instance ToSchema a => ToSchema (HashMap T.Text a) where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy (Map String a))
instance ToSchema a => ToSchema (HashMap TL.Text a) where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy (Map String a))
#endif
instance ToSchema a => ToSchema (V.Vector a) where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy [a])
instance ToSchema a => ToSchema (VU.Vector a) where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy [a])
instance ToSchema a => ToSchema (VS.Vector a) where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy [a])
instance ToSchema a => ToSchema (VP.Vector a) where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy [a])
instance ToSchema a => ToSchema (Set a) where
declareNamedSchema _ = do
schema <- declareSchema (Proxy :: Proxy [a])
return $ unnamed $ schema
& uniqueItems ?~ True
instance ToSchema a => ToSchema (HashSet a) where declareNamedSchema _ = declareNamedSchema (Proxy :: Proxy (Set a))
instance ToSchema All where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema Any where declareNamedSchema = plain . paramSchemaToSchema
instance ToSchema a => ToSchema (Sum a) where declareNamedSchema _ = unname <$> declareNamedSchema (Proxy :: Proxy a)
instance ToSchema a => ToSchema (Product a) where declareNamedSchema _ = unname <$> declareNamedSchema (Proxy :: Proxy a)
instance ToSchema a => ToSchema (First a) where declareNamedSchema _ = unname <$> declareNamedSchema (Proxy :: Proxy a)
instance ToSchema a => ToSchema (Last a) where declareNamedSchema _ = unname <$> declareNamedSchema (Proxy :: Proxy a)
instance ToSchema a => ToSchema (Dual a) where declareNamedSchema _ = unname <$> declareNamedSchema (Proxy :: Proxy a)
toSchemaBoundedIntegral :: forall a proxy. (Bounded a, Integral a) => proxy a -> Schema
toSchemaBoundedIntegral _ = mempty
& type_ .~ SwaggerInteger
& minimum_ ?~ fromInteger (toInteger (minBound :: a))
& maximum_ ?~ fromInteger (toInteger (maxBound :: a))
genericToNamedSchemaBoundedIntegral :: forall a d f proxy.
( Bounded a, Integral a
, Generic a, Rep a ~ D1 d f, Datatype d)
=> SchemaOptions -> proxy a -> NamedSchema
genericToNamedSchemaBoundedIntegral opts proxy
= NamedSchema (gdatatypeSchemaName opts (Proxy :: Proxy d)) (toSchemaBoundedIntegral proxy)
genericDeclareSchema :: (Generic a, GToSchema (Rep a)) => SchemaOptions -> proxy a -> Declare (Definitions Schema) Schema
genericDeclareSchema opts proxy = _namedSchemaSchema <$> genericDeclareNamedSchema opts proxy
genericDeclareNamedSchema :: forall a proxy. (Generic a, GToSchema (Rep a)) => SchemaOptions -> proxy a -> Declare (Definitions Schema) NamedSchema
genericDeclareNamedSchema opts _ = gdeclareNamedSchema opts (Proxy :: Proxy (Rep a)) mempty
gdatatypeSchemaName :: forall proxy d. Datatype d => SchemaOptions -> proxy d -> Maybe T.Text
gdatatypeSchemaName opts _ = case name of
(c:_) | isAlpha c && isUpper c -> Just (T.pack name)
_ -> Nothing
where
name = datatypeNameModifier opts (datatypeName (Proxy3 :: Proxy3 d f a))
paramSchemaToNamedSchema :: forall a d f proxy.
(ToParamSchema a, Generic a, Rep a ~ D1 d f, Datatype d)
=> SchemaOptions -> proxy a -> NamedSchema
paramSchemaToNamedSchema opts proxy = NamedSchema (gdatatypeSchemaName opts (Proxy :: Proxy d)) (paramSchemaToSchema proxy)
paramSchemaToSchema :: forall a proxy. ToParamSchema a => proxy a -> Schema
paramSchemaToSchema _ = mempty & paramSchema .~ toParamSchema (Proxy :: Proxy a)
nullarySchema :: Schema
nullarySchema = mempty
& type_ .~ SwaggerArray
& items ?~ SwaggerItemsArray []
gtoNamedSchema :: GToSchema f => SchemaOptions -> proxy f -> NamedSchema
gtoNamedSchema opts proxy = undeclare $ gdeclareNamedSchema opts proxy mempty
gdeclareSchema :: GToSchema f => SchemaOptions -> proxy f -> Declare (Definitions Schema) Schema
gdeclareSchema opts proxy = _namedSchemaSchema <$> gdeclareNamedSchema opts proxy mempty
instance (GToSchema f, GToSchema g) => GToSchema (f :*: g) where
gdeclareNamedSchema opts _ schema = do
NamedSchema _ gschema <- gdeclareNamedSchema opts (Proxy :: Proxy f) schema
gdeclareNamedSchema opts (Proxy :: Proxy g) gschema
instance (Datatype d, GToSchema f) => GToSchema (D1 d f) where
gdeclareNamedSchema opts _ s = rename name <$> gdeclareNamedSchema opts (Proxy :: Proxy f) s
where
name = gdatatypeSchemaName opts (Proxy :: Proxy d)
instance OVERLAPPABLE_ GToSchema f => GToSchema (C1 c f) where
gdeclareNamedSchema opts _ = gdeclareNamedSchema opts (Proxy :: Proxy f)
instance OVERLAPPING_ Constructor c => GToSchema (C1 c U1) where
gdeclareNamedSchema = gdeclareNamedSumSchema
instance (Selector s, GToSchema f) => GToSchema (C1 c (S1 s f)) where
gdeclareNamedSchema opts _ s
| unwrapUnaryRecords opts = fieldSchema
| otherwise =
case schema ^. items of
Just (SwaggerItemsArray [_]) -> fieldSchema
_ -> do
declare defs
return (unnamed schema)
where
(defs, NamedSchema _ schema) = runDeclare recordSchema mempty
recordSchema = gdeclareNamedSchema opts (Proxy :: Proxy (S1 s f)) s
fieldSchema = gdeclareNamedSchema opts (Proxy :: Proxy f) s
gdeclareSchemaRef :: GToSchema a => SchemaOptions -> proxy a -> Declare (Definitions Schema) (Referenced Schema)
gdeclareSchemaRef opts proxy = do
case gtoNamedSchema opts proxy of
NamedSchema (Just name) schema -> do
known <- looks (InsOrdHashMap.member name)
when (not known) $ do
declare [(name, schema)]
void $ gdeclareNamedSchema opts proxy mempty
return $ Ref (Reference name)
_ -> Inline <$> gdeclareSchema opts proxy
appendItem :: Referenced Schema -> Maybe (SwaggerItems 'SwaggerKindSchema) -> Maybe (SwaggerItems 'SwaggerKindSchema)
appendItem x Nothing = Just (SwaggerItemsArray [x])
appendItem x (Just (SwaggerItemsArray xs)) = Just (SwaggerItemsArray (xs ++ [x]))
appendItem _ _ = error "GToSchema.appendItem: cannot append to SwaggerItemsObject"
withFieldSchema :: forall proxy s f. (Selector s, GToSchema f) =>
SchemaOptions -> proxy s f -> Bool -> Schema -> Declare (Definitions Schema) Schema
withFieldSchema opts _ isRequiredField schema = do
ref <- gdeclareSchemaRef opts (Proxy :: Proxy f)
return $
if T.null fname
then schema
& type_ .~ SwaggerArray
& items %~ appendItem ref
else schema
& type_ .~ SwaggerObject
& properties . at fname ?~ ref
& if isRequiredField
then required %~ (++ [fname])
else id
where
fname = T.pack (fieldLabelModifier opts (selName (Proxy3 :: Proxy3 s f p)))
instance OVERLAPPING_ (Selector s, ToSchema c) => GToSchema (S1 s (K1 i (Maybe c))) where
gdeclareNamedSchema opts _ = fmap unnamed . withFieldSchema opts (Proxy2 :: Proxy2 s (K1 i (Maybe c))) False
instance OVERLAPPABLE_ (Selector s, GToSchema f) => GToSchema (S1 s f) where
gdeclareNamedSchema opts _ = fmap unnamed . withFieldSchema opts (Proxy2 :: Proxy2 s f) True
instance OVERLAPPING_ ToSchema c => GToSchema (K1 i (Maybe c)) where
gdeclareNamedSchema _ _ _ = declareNamedSchema (Proxy :: Proxy c)
instance OVERLAPPABLE_ ToSchema c => GToSchema (K1 i c) where
gdeclareNamedSchema _ _ _ = declareNamedSchema (Proxy :: Proxy c)
instance (GSumToSchema f, GSumToSchema g) => GToSchema (f :+: g) where
gdeclareNamedSchema = gdeclareNamedSumSchema
gdeclareNamedSumSchema :: GSumToSchema f => SchemaOptions -> proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSumSchema opts proxy s
| allNullaryToStringTag opts && allNullary = pure $ unnamed (toStringTag sumSchema)
| otherwise = (unnamed . fst) <$> runWriterT declareSumSchema
where
declareSumSchema = gsumToSchema opts proxy s
(sumSchema, All allNullary) = undeclare (runWriterT declareSumSchema)
toStringTag schema = mempty
& type_ .~ SwaggerString
& enum_ ?~ map toJSON (schema ^.. properties.ifolded.asIndex)
type AllNullary = All
class GSumToSchema f where
gsumToSchema :: SchemaOptions -> proxy f -> Schema -> WriterT AllNullary (Declare (Definitions Schema)) Schema
instance (GSumToSchema f, GSumToSchema g) => GSumToSchema (f :+: g) where
gsumToSchema opts _ = gsumToSchema opts (Proxy :: Proxy f) >=> gsumToSchema opts (Proxy :: Proxy g)
gsumConToSchemaWith :: forall c f proxy. (GToSchema (C1 c f), Constructor c) =>
Referenced Schema -> SchemaOptions -> proxy (C1 c f) -> Schema -> Schema
gsumConToSchemaWith ref opts _ schema = schema
& type_ .~ SwaggerObject
& properties . at tag ?~ ref
& maxProperties ?~ 1
& minProperties ?~ 1
where
tag = T.pack (constructorTagModifier opts (conName (Proxy3 :: Proxy3 c f p)))
gsumConToSchema :: forall c f proxy. (GToSchema (C1 c f), Constructor c) =>
SchemaOptions -> proxy (C1 c f) -> Schema -> Declare (Definitions Schema) Schema
gsumConToSchema opts proxy schema = do
ref <- gdeclareSchemaRef opts proxy
return $ gsumConToSchemaWith ref opts proxy schema
instance OVERLAPPABLE_ (Constructor c, GToSchema f) => GSumToSchema (C1 c f) where
gsumToSchema opts proxy schema = do
tell (All False)
lift $ gsumConToSchema opts proxy schema
instance (Constructor c, Selector s, GToSchema f) => GSumToSchema (C1 c (S1 s f)) where
gsumToSchema opts proxy schema = do
tell (All False)
lift $ gsumConToSchema opts proxy schema
instance Constructor c => GSumToSchema (C1 c U1) where
gsumToSchema opts proxy = pure . gsumConToSchemaWith (Inline nullarySchema) opts proxy
data Proxy2 a b = Proxy2
data Proxy3 a b c = Proxy3