{-# LANGUAGE CPP #-}
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DefaultSignatures #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE KindSignatures #-}
{-# LANGUAGE OverloadedLists #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE PackageImports #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE TypeApplications #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE TypeSynonymInstances #-}
{-# LANGUAGE UndecidableInstances #-}
{-# OPTIONS_GHC -Wno-redundant-constraints #-}
{-# OPTIONS_GHC -Wno-unticked-promoted-constructors #-}
module Data.OpenApi.Internal.Schema where
import Prelude ()
import Prelude.Compat
import Control.Lens hiding (allOf)
import Data.Data.Lens (template)
import Control.Monad
import Control.Monad.Writer
import Data.Aeson (Object (..), SumEncoding (..), ToJSON (..), ToJSONKey (..),
ToJSONKeyFunction (..), Value (..))
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.List.NonEmpty.Compat (NonEmpty)
import Data.Map (Map)
import Data.Maybe (fromMaybe)
import Data.Proxy
import Data.Scientific (Scientific)
import Data.Fixed (Fixed, HasResolution, Pico)
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.Version (Version)
import Numeric.Natural.Compat (Natural)
import Data.Word
import GHC.Generics
import qualified Data.UUID.Types as UUID
import Type.Reflection (Typeable, typeRep)
import Data.OpenApi.Declare
import Data.OpenApi.Internal
import Data.OpenApi.Internal.ParamSchema (ToParamSchema(..))
import Data.OpenApi.Lens hiding (name, schema)
import qualified Data.OpenApi.Lens as Swagger
import Data.OpenApi.SchemaOptions
import Data.OpenApi.Internal.TypeShape
import qualified Data.ByteString as BS
import qualified Data.ByteString.Lazy.Char8 as BSL
import GHC.TypeLits (TypeError, ErrorMessage(..))
unnamed :: Schema -> NamedSchema
unnamed :: Schema -> NamedSchema
unnamed Schema
schema = Maybe Text -> Schema -> NamedSchema
NamedSchema Maybe Text
forall a. Maybe a
Nothing Schema
schema
named :: T.Text -> Schema -> NamedSchema
named :: Text -> Schema -> NamedSchema
named Text
name Schema
schema = Maybe Text -> Schema -> NamedSchema
NamedSchema (Text -> Maybe Text
forall a. a -> Maybe a
Just Text
name) Schema
schema
plain :: Schema -> Declare (Definitions Schema) NamedSchema
plain :: Schema -> Declare (Definitions Schema) NamedSchema
plain = NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a. Applicative f => a -> f a
pure (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> (Schema -> NamedSchema)
-> Schema
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Schema -> NamedSchema
unnamed
unname :: NamedSchema -> NamedSchema
unname :: NamedSchema -> NamedSchema
unname (NamedSchema Maybe Text
_ Schema
schema) = Schema -> NamedSchema
unnamed Schema
schema
rename :: Maybe T.Text -> NamedSchema -> NamedSchema
rename :: Maybe Text -> NamedSchema -> NamedSchema
rename Maybe Text
name (NamedSchema Maybe Text
_ Schema
schema) = Maybe Text -> Schema -> NamedSchema
NamedSchema Maybe Text
name Schema
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 = SchemaOptions
-> Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
(Generic a, GToSchema (Rep a)) =>
SchemaOptions
-> Proxy a -> Declare (Definitions Schema) NamedSchema
genericDeclareNamedSchema SchemaOptions
defaultSchemaOptions
instance ToSchema TimeOfDay where
declareNamedSchema :: Proxy TimeOfDay -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy TimeOfDay
_ = NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a. Applicative f => a -> f a
pure (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema -> NamedSchema
named Text
"TimeOfDay" (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema
timeSchema Text
"hh:MM:ss"
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema
forall s a. HasExample s a => Lens' s a
example ((Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema)
-> Value -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ TimeOfDay -> Value
forall a. ToJSON a => a -> Value
toJSON (Int -> Int -> Pico -> TimeOfDay
TimeOfDay Int
12 Int
33 Pico
15)
declareSchema :: ToSchema a => Proxy a -> Declare (Definitions Schema) Schema
declareSchema :: Proxy a -> Declare (Definitions Schema) Schema
declareSchema = (NamedSchema -> Schema)
-> Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) Schema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap NamedSchema -> Schema
_namedSchemaSchema (Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) Schema)
-> (Proxy a -> Declare (Definitions Schema) NamedSchema)
-> Proxy a
-> Declare (Definitions Schema) Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema
toNamedSchema :: ToSchema a => Proxy a -> NamedSchema
toNamedSchema :: Proxy a -> NamedSchema
toNamedSchema = Declare (Definitions Schema) NamedSchema -> NamedSchema
forall d a. Monoid d => Declare d a -> a
undeclare (Declare (Definitions Schema) NamedSchema -> NamedSchema)
-> (Proxy a -> Declare (Definitions Schema) NamedSchema)
-> Proxy a
-> NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema
schemaName :: ToSchema a => Proxy a -> Maybe T.Text
schemaName :: Proxy a -> Maybe Text
schemaName = NamedSchema -> Maybe Text
_namedSchemaName (NamedSchema -> Maybe Text)
-> (Proxy a -> NamedSchema) -> Proxy a -> Maybe Text
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy a -> NamedSchema
forall a. ToSchema a => Proxy a -> NamedSchema
toNamedSchema
toSchema :: ToSchema a => Proxy a -> Schema
toSchema :: Proxy a -> Schema
toSchema = NamedSchema -> Schema
_namedSchemaSchema (NamedSchema -> Schema)
-> (Proxy a -> NamedSchema) -> Proxy a -> Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy a -> NamedSchema
forall a. ToSchema a => Proxy a -> NamedSchema
toNamedSchema
toSchemaRef :: ToSchema a => Proxy a -> Referenced Schema
toSchemaRef :: Proxy a -> Referenced Schema
toSchemaRef = Declare (Definitions Schema) (Referenced Schema)
-> Referenced Schema
forall d a. Monoid d => Declare d a -> a
undeclare (Declare (Definitions Schema) (Referenced Schema)
-> Referenced Schema)
-> (Proxy a -> Declare (Definitions Schema) (Referenced Schema))
-> Proxy a
-> Referenced Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy a -> Declare (Definitions Schema) (Referenced Schema)
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) (Referenced Schema)
declareSchemaRef
declareSchemaRef :: ToSchema a => Proxy a -> Declare (Definitions Schema) (Referenced Schema)
declareSchemaRef :: Proxy a -> Declare (Definitions Schema) (Referenced Schema)
declareSchemaRef Proxy a
proxy = do
case Proxy a -> NamedSchema
forall a. ToSchema a => Proxy a -> NamedSchema
toNamedSchema Proxy a
proxy of
NamedSchema (Just Text
name) Schema
schema -> do
Bool
known <- (Definitions Schema -> Bool)
-> DeclareT (Definitions Schema) Identity Bool
forall d (m :: * -> *) a. MonadDeclare d m => (d -> a) -> m a
looks (Text -> Definitions Schema -> Bool
forall k a. (Eq k, Hashable k) => k -> InsOrdHashMap k a -> Bool
InsOrdHashMap.member Text
name)
Bool
-> DeclareT (Definitions Schema) Identity ()
-> DeclareT (Definitions Schema) Identity ()
forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when (Bool -> Bool
not Bool
known) (DeclareT (Definitions Schema) Identity ()
-> DeclareT (Definitions Schema) Identity ())
-> DeclareT (Definitions Schema) Identity ()
-> DeclareT (Definitions Schema) Identity ()
forall a b. (a -> b) -> a -> b
$ do
Definitions Schema -> DeclareT (Definitions Schema) Identity ()
forall d (m :: * -> *). MonadDeclare d m => d -> m ()
declare [(Text
name, Schema
schema)]
Declare (Definitions Schema) NamedSchema
-> DeclareT (Definitions Schema) Identity ()
forall (f :: * -> *) a. Functor f => f a -> f ()
void (Declare (Definitions Schema) NamedSchema
-> DeclareT (Definitions Schema) Identity ())
-> Declare (Definitions Schema) NamedSchema
-> DeclareT (Definitions Schema) Identity ()
forall a b. (a -> b) -> a -> b
$ Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy a
proxy
Referenced Schema
-> Declare (Definitions Schema) (Referenced Schema)
forall (m :: * -> *) a. Monad m => a -> m a
return (Referenced Schema
-> Declare (Definitions Schema) (Referenced Schema))
-> Referenced Schema
-> Declare (Definitions Schema) (Referenced Schema)
forall a b. (a -> b) -> a -> b
$ Reference -> Referenced Schema
forall a. Reference -> Referenced a
Ref (Text -> Reference
Reference Text
name)
NamedSchema
_ -> Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema)
-> Declare (Definitions Schema) Schema
-> Declare (Definitions Schema) (Referenced Schema)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Proxy a -> Declare (Definitions Schema) Schema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) Schema
declareSchema Proxy a
proxy
inlineSchemasWhen :: Data s => (T.Text -> Bool) -> (Definitions Schema) -> s -> s
inlineSchemasWhen :: (Text -> Bool) -> Definitions Schema -> s -> s
inlineSchemasWhen Text -> Bool
p Definitions Schema
defs = (Referenced Schema -> Identity (Referenced Schema))
-> s -> Identity s
forall s a. (Data s, Typeable a) => Traversal' s a
template ((Referenced Schema -> Identity (Referenced Schema))
-> s -> Identity s)
-> (Referenced Schema -> Referenced Schema) -> s -> s
forall s t a b. ASetter s t a b -> (a -> b) -> s -> t
%~ Referenced Schema -> Referenced Schema
deref
where
deref :: Referenced Schema -> Referenced Schema
deref r :: Referenced Schema
r@(Ref (Reference Text
name))
| Text -> Bool
p Text
name =
case Text -> Definitions Schema -> Maybe Schema
forall k v. (Eq k, Hashable k) => k -> InsOrdHashMap k v -> Maybe v
InsOrdHashMap.lookup Text
name Definitions Schema
defs of
Just Schema
schema -> Schema -> Referenced Schema
forall a. a -> Referenced a
Inline ((Text -> Bool) -> Definitions Schema -> Schema -> Schema
forall s. Data s => (Text -> Bool) -> Definitions Schema -> s -> s
inlineSchemasWhen Text -> Bool
p Definitions Schema
defs Schema
schema)
Maybe Schema
Nothing -> Referenced Schema
r
| Bool
otherwise = Referenced Schema
r
deref (Inline Schema
schema) = Schema -> Referenced Schema
forall a. a -> Referenced a
Inline ((Text -> Bool) -> Definitions Schema -> Schema -> Schema
forall s. Data s => (Text -> Bool) -> Definitions Schema -> s -> s
inlineSchemasWhen Text -> Bool
p Definitions Schema
defs Schema
schema)
inlineSchemas :: Data s => [T.Text] -> (Definitions Schema) -> s -> s
inlineSchemas :: [Text] -> Definitions Schema -> s -> s
inlineSchemas [Text]
names = (Text -> Bool) -> Definitions Schema -> s -> s
forall s. Data s => (Text -> Bool) -> Definitions Schema -> s -> s
inlineSchemasWhen (Text -> [Text] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` [Text]
names)
inlineAllSchemas :: Data s => (Definitions Schema) -> s -> s
inlineAllSchemas :: Definitions Schema -> s -> s
inlineAllSchemas = (Text -> Bool) -> Definitions Schema -> s -> s
forall s. Data s => (Text -> Bool) -> Definitions Schema -> s -> s
inlineSchemasWhen (Bool -> Text -> Bool
forall a b. a -> b -> a
const Bool
True)
toInlinedSchema :: ToSchema a => Proxy a -> Schema
toInlinedSchema :: Proxy a -> Schema
toInlinedSchema Proxy a
proxy = Definitions Schema -> Schema -> Schema
forall s. Data s => Definitions Schema -> s -> s
inlineAllSchemas Definitions Schema
defs Schema
schema
where
(Definitions Schema
defs, Schema
schema) = Declare (Definitions Schema) Schema
-> Definitions Schema -> (Definitions Schema, Schema)
forall d a. Declare d a -> d -> (d, a)
runDeclare (Proxy a -> Declare (Definitions Schema) Schema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) Schema
declareSchema Proxy a
proxy) Definitions Schema
forall a. Monoid a => a
mempty
inlineNonRecursiveSchemas :: Data s => (Definitions Schema) -> s -> s
inlineNonRecursiveSchemas :: Definitions Schema -> s -> s
inlineNonRecursiveSchemas Definitions Schema
defs = (Text -> Bool) -> Definitions Schema -> s -> s
forall s. Data s => (Text -> Bool) -> Definitions Schema -> s -> s
inlineSchemasWhen Text -> Bool
nonRecursive Definitions Schema
defs
where
nonRecursive :: Text -> Bool
nonRecursive Text
name =
case Text -> Definitions Schema -> Maybe Schema
forall k v. (Eq k, Hashable k) => k -> InsOrdHashMap k v -> Maybe v
InsOrdHashMap.lookup Text
name Definitions Schema
defs of
Just Schema
schema -> Text
name Text -> [Text] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`notElem` Declare [Text] () -> [Text] -> [Text]
forall d a. Declare d a -> d -> d
execDeclare (Schema -> Declare [Text] ()
usedNames Schema
schema) [Text]
forall a. Monoid a => a
mempty
Maybe Schema
Nothing -> Bool
False
usedNames :: Schema -> Declare [Text] ()
usedNames Schema
schema = (Referenced Schema -> Declare [Text] ())
-> [Referenced Schema] -> Declare [Text] ()
forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ Referenced Schema -> Declare [Text] ()
schemaRefNames (Schema
schema Schema
-> Getting (Endo [Referenced Schema]) Schema (Referenced Schema)
-> [Referenced Schema]
forall s a. s -> Getting (Endo [a]) s a -> [a]
^.. Getting (Endo [Referenced Schema]) Schema (Referenced Schema)
forall s a. (Data s, Typeable a) => Traversal' s a
template)
schemaRefNames :: Referenced Schema -> Declare [T.Text] ()
schemaRefNames :: Referenced Schema -> Declare [Text] ()
schemaRefNames Referenced Schema
ref = case Referenced Schema
ref of
Ref (Reference Text
name) -> do
Bool
seen <- ([Text] -> Bool) -> DeclareT [Text] Identity Bool
forall d (m :: * -> *) a. MonadDeclare d m => (d -> a) -> m a
looks (Text
name Text -> [Text] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem`)
Bool -> Declare [Text] () -> Declare [Text] ()
forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when (Bool -> Bool
not Bool
seen) (Declare [Text] () -> Declare [Text] ())
-> Declare [Text] () -> Declare [Text] ()
forall a b. (a -> b) -> a -> b
$ do
[Text] -> Declare [Text] ()
forall d (m :: * -> *). MonadDeclare d m => d -> m ()
declare [Text
Item [Text]
name]
(Schema -> Declare [Text] ()) -> Maybe Schema -> Declare [Text] ()
forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ Schema -> Declare [Text] ()
usedNames (Text -> Definitions Schema -> Maybe Schema
forall k v. (Eq k, Hashable k) => k -> InsOrdHashMap k v -> Maybe v
InsOrdHashMap.lookup Text
name Definitions Schema
defs)
Inline Schema
subschema -> Schema -> Declare [Text] ()
usedNames Schema
subschema
sketchSchema :: ToJSON a => a -> Schema
sketchSchema :: a -> Schema
sketchSchema = Value -> Schema
sketch (Value -> Schema) -> (a -> Value) -> a -> Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. a -> Value
forall a. ToJSON a => a -> Value
toJSON
where
sketch :: Value -> Schema
sketch Value
Null = Value -> Schema
go Value
Null
sketch js :: Value
js@(Bool Bool
_) = Value -> Schema
go Value
js
sketch Value
js = Value -> Schema
go Value
js Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema
forall s a. HasExample s a => Lens' s a
example ((Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema)
-> Value -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Value
js
go :: Value -> Schema
go Value
Null = Schema
forall a. Monoid a => a
mempty Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiNull
go (Bool Bool
_) = Schema
forall a. Monoid a => a
mempty Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiBoolean
go (String Text
_) = Schema
forall a. Monoid a => a
mempty Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiString
go (Number Scientific
_) = Schema
forall a. Monoid a => a
mempty Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiNumber
go (Array Array
xs) = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiArray
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiItems -> Identity (Maybe OpenApiItems))
-> Schema -> Identity Schema
forall s a. HasItems s a => Lens' s a
items ((Maybe OpenApiItems -> Identity (Maybe OpenApiItems))
-> Schema -> Identity Schema)
-> OpenApiItems -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ case Maybe Schema
ischema of
Just Schema
s -> Referenced Schema -> OpenApiItems
OpenApiItemsObject (Schema -> Referenced Schema
forall a. a -> Referenced a
Inline Schema
s)
Maybe Schema
_ -> [Referenced Schema] -> OpenApiItems
OpenApiItemsArray ((Schema -> Referenced Schema) -> [Schema] -> [Referenced Schema]
forall a b. (a -> b) -> [a] -> [b]
map Schema -> Referenced Schema
forall a. a -> Referenced a
Inline [Schema]
ys)
where
ys :: [Schema]
ys = (Value -> Schema) -> [Value] -> [Schema]
forall a b. (a -> b) -> [a] -> [b]
map Value -> Schema
go (Array -> [Value]
forall a. Vector a -> [a]
V.toList Array
xs)
allSame :: Bool
allSame = [Bool] -> Bool
forall (t :: * -> *). Foldable t => t Bool -> Bool
and (((Schema -> Schema -> Bool) -> [Schema] -> [Schema] -> [Bool]
forall a b c. (a -> b -> c) -> [a] -> [b] -> [c]
zipWith Schema -> Schema -> Bool
forall a. Eq a => a -> a -> Bool
(==)) [Schema]
ys ([Schema] -> [Schema]
forall a. [a] -> [a]
tail [Schema]
ys))
ischema :: Maybe Schema
ischema = case [Schema]
ys of
(Schema
z:[Schema]
_) | Bool
allSame -> Schema -> Maybe Schema
forall a. a -> Maybe a
Just Schema
z
[Schema]
_ -> Maybe Schema
forall a. Maybe a
Nothing
go (Object Object
o) = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& ([Text] -> Identity [Text]) -> Schema -> Identity Schema
forall s a. HasRequired s a => Lens' s a
required (([Text] -> Identity [Text]) -> Schema -> Identity Schema)
-> [Text] -> Schema -> Schema
forall s t a b. ASetter s t a b -> b -> s -> t
.~ Object -> [Text]
forall k v. HashMap k v -> [k]
HashMap.keys Object
o
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema
forall s a. HasProperties s a => Lens' s a
properties ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema)
-> InsOrdHashMap Text (Referenced Schema) -> Schema -> Schema
forall s t a b. ASetter s t a b -> b -> s -> t
.~ (Value -> Referenced Schema)
-> InsOrdHashMap Text Value
-> InsOrdHashMap Text (Referenced Schema)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap (Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema)
-> (Value -> Schema) -> Value -> Referenced Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Value -> Schema
go) (Object -> InsOrdHashMap Text Value
forall k v. HashMap k v -> InsOrdHashMap k v
InsOrdHashMap.fromHashMap Object
o)
sketchStrictSchema :: ToJSON a => a -> Schema
sketchStrictSchema :: a -> Schema
sketchStrictSchema = Value -> Schema
go (Value -> Schema) -> (a -> Value) -> a -> Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. a -> Value
forall a. ToJSON a => a -> Value
toJSON
where
go :: Value -> Schema
go Value
Null = Schema
forall a. Monoid a => a
mempty Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiNull
go js :: Value
js@(Bool Bool
_) = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiBoolean
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema
forall s a. HasEnum s a => Lens' s a
enum_ ((Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema)
-> [Value] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Value
Item [Value]
js]
go js :: Value
js@(String Text
s) = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiString
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema
forall s a. HasMaxLength s a => Lens' s a
maxLength ((Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema)
-> Integer -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Text -> Int
T.length Text
s)
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema
forall s a. HasMinLength s a => Lens' s a
minLength ((Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema)
-> Integer -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Text -> Int
T.length Text
s)
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Text -> Identity (Maybe Text)) -> Schema -> Identity Schema
forall s a. HasPattern s a => Lens' s a
pattern ((Maybe Text -> Identity (Maybe Text))
-> Schema -> Identity Schema)
-> Text -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Text
s
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema
forall s a. HasEnum s a => Lens' s a
enum_ ((Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema)
-> [Value] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Value
Item [Value]
js]
go js :: Value
js@(Number Scientific
n) = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiNumber
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Scientific -> Identity (Maybe Scientific))
-> Schema -> Identity Schema
forall s a. HasMaximum s a => Lens' s a
maximum_ ((Maybe Scientific -> Identity (Maybe Scientific))
-> Schema -> Identity Schema)
-> Scientific -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Scientific
n
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Scientific -> Identity (Maybe Scientific))
-> Schema -> Identity Schema
forall s a. HasMinimum s a => Lens' s a
minimum_ ((Maybe Scientific -> Identity (Maybe Scientific))
-> Schema -> Identity Schema)
-> Scientific -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Scientific
n
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Scientific -> Identity (Maybe Scientific))
-> Schema -> Identity Schema
forall s a. HasMultipleOf s a => Lens' s a
multipleOf ((Maybe Scientific -> Identity (Maybe Scientific))
-> Schema -> Identity Schema)
-> Scientific -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Scientific
n
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema
forall s a. HasEnum s a => Lens' s a
enum_ ((Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema)
-> [Value] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Value
Item [Value]
js]
go js :: Value
js@(Array Array
xs) = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiArray
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema
forall s a. HasMaxItems s a => Lens' s a
maxItems ((Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema)
-> Integer -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
sz
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema
forall s a. HasMinItems s a => Lens' s a
minItems ((Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema)
-> Integer -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
sz
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiItems -> Identity (Maybe OpenApiItems))
-> Schema -> Identity Schema
forall s a. HasItems s a => Lens' s a
items ((Maybe OpenApiItems -> Identity (Maybe OpenApiItems))
-> Schema -> Identity Schema)
-> OpenApiItems -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Referenced Schema] -> OpenApiItems
OpenApiItemsArray ((Value -> Referenced Schema) -> [Value] -> [Referenced Schema]
forall a b. (a -> b) -> [a] -> [b]
map (Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema)
-> (Value -> Schema) -> Value -> Referenced Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Value -> Schema
go) (Array -> [Value]
forall a. Vector a -> [a]
V.toList Array
xs))
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Bool -> Identity (Maybe Bool)) -> Schema -> Identity Schema
forall s a. HasUniqueItems s a => Lens' s a
uniqueItems ((Maybe Bool -> Identity (Maybe Bool))
-> Schema -> Identity Schema)
-> Bool -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Bool
allUnique
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema
forall s a. HasEnum s a => Lens' s a
enum_ ((Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema)
-> [Value] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Value
Item [Value]
js]
where
sz :: Int
sz = Array -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length Array
xs
allUnique :: Bool
allUnique = Int
sz Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
== HashSet Value -> Int
forall a. HashSet a -> Int
HashSet.size ([Value] -> HashSet Value
forall a. (Eq a, Hashable a) => [a] -> HashSet a
HashSet.fromList (Array -> [Value]
forall a. Vector a -> [a]
V.toList Array
xs))
go js :: Value
js@(Object Object
o) = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& ([Text] -> Identity [Text]) -> Schema -> Identity Schema
forall s a. HasRequired s a => Lens' s a
required (([Text] -> Identity [Text]) -> Schema -> Identity Schema)
-> [Text] -> Schema -> Schema
forall s t a b. ASetter s t a b -> b -> s -> t
.~ [Text]
names
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema
forall s a. HasProperties s a => Lens' s a
properties ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema)
-> InsOrdHashMap Text (Referenced Schema) -> Schema -> Schema
forall s t a b. ASetter s t a b -> b -> s -> t
.~ (Value -> Referenced Schema)
-> InsOrdHashMap Text Value
-> InsOrdHashMap Text (Referenced Schema)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap (Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema)
-> (Value -> Schema) -> Value -> Referenced Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Value -> Schema
go) (Object -> InsOrdHashMap Text Value
forall k v. HashMap k v -> InsOrdHashMap k v
InsOrdHashMap.fromHashMap Object
o)
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema
forall s a. HasMaxProperties s a => Lens' s a
maxProperties ((Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema)
-> Integer -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral ([Text] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length [Text]
names)
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema
forall s a. HasMinProperties s a => Lens' s a
minProperties ((Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema)
-> Integer -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral ([Text] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length [Text]
names)
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema
forall s a. HasEnum s a => Lens' s a
enum_ ((Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema)
-> [Value] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Value
Item [Value]
js]
where
names :: [Text]
names = Object -> [Text]
forall k v. HashMap k v -> [k]
HashMap.keys Object
o
class GToSchema (f :: * -> *) where
gdeclareNamedSchema :: SchemaOptions -> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
instance {-# OVERLAPPABLE #-} ToSchema a => ToSchema [a] where
declareNamedSchema :: Proxy [a] -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy [a]
_ = do
Referenced Schema
ref <- Proxy a -> Declare (Definitions Schema) (Referenced Schema)
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) (Referenced Schema)
declareSchemaRef (Proxy a
forall k (t :: k). Proxy t
Proxy :: Proxy a)
NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (m :: * -> *) a. Monad m => a -> m a
return (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema -> NamedSchema
unnamed (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiArray
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiItems -> Identity (Maybe OpenApiItems))
-> Schema -> Identity Schema
forall s a. HasItems s a => Lens' s a
items ((Maybe OpenApiItems -> Identity (Maybe OpenApiItems))
-> Schema -> Identity Schema)
-> OpenApiItems -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Referenced Schema -> OpenApiItems
OpenApiItemsObject Referenced Schema
ref
instance {-# OVERLAPPING #-} ToSchema String where declareNamedSchema :: Proxy String -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy String -> Schema)
-> Proxy String
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy String -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Bool where declareNamedSchema :: Proxy Bool -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Bool -> Schema)
-> Proxy Bool
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Bool -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Integer where declareNamedSchema :: Proxy Integer -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Integer -> Schema)
-> Proxy Integer
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Integer -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Natural where declareNamedSchema :: Proxy Natural -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Natural -> Schema)
-> Proxy Natural
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Natural -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Int where declareNamedSchema :: Proxy Int -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Int -> Schema)
-> Proxy Int
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Int -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Int8 where declareNamedSchema :: Proxy Int8 -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Int8 -> Schema)
-> Proxy Int8
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Int8 -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Int16 where declareNamedSchema :: Proxy Int16 -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Int16 -> Schema)
-> Proxy Int16
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Int16 -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Int32 where declareNamedSchema :: Proxy Int32 -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Int32 -> Schema)
-> Proxy Int32
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Int32 -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Int64 where declareNamedSchema :: Proxy Int64 -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Int64 -> Schema)
-> Proxy Int64
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Int64 -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Word where declareNamedSchema :: Proxy Word -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Word -> Schema)
-> Proxy Word
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Word -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Word8 where declareNamedSchema :: Proxy Word8 -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Word8 -> Schema)
-> Proxy Word8
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Word8 -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Word16 where declareNamedSchema :: Proxy Word16 -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Word16 -> Schema)
-> Proxy Word16
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Word16 -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Word32 where declareNamedSchema :: Proxy Word32 -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Word32 -> Schema)
-> Proxy Word32
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Word32 -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Word64 where declareNamedSchema :: Proxy Word64 -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Word64 -> Schema)
-> Proxy Word64
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Word64 -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Char where
declareNamedSchema :: Proxy Char -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy Char
proxy = Schema -> Declare (Definitions Schema) NamedSchema
plain (Proxy Char -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema Proxy Char
proxy)
Declare (Definitions Schema) NamedSchema
-> (Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) NamedSchema)
-> Declare (Definitions Schema) NamedSchema
forall a b. a -> (a -> b) -> b
& (NamedSchema -> Identity NamedSchema)
-> Declare (Definitions Schema) NamedSchema
-> Identity (Declare (Definitions Schema) NamedSchema)
forall (f :: * -> *) a b. Functor f => Setter (f a) (f b) a b
mapped((NamedSchema -> Identity NamedSchema)
-> Declare (Definitions Schema) NamedSchema
-> Identity (Declare (Definitions Schema) NamedSchema))
-> ((Maybe Value -> Identity (Maybe Value))
-> NamedSchema -> Identity NamedSchema)
-> (Maybe Value -> Identity (Maybe Value))
-> Declare (Definitions Schema) NamedSchema
-> Identity (Declare (Definitions Schema) NamedSchema)
forall b c a. (b -> c) -> (a -> b) -> a -> c
.(Schema -> Identity Schema) -> NamedSchema -> Identity NamedSchema
forall s a. HasSchema s a => Lens' s a
Swagger.schema((Schema -> Identity Schema)
-> NamedSchema -> Identity NamedSchema)
-> ((Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema)
-> (Maybe Value -> Identity (Maybe Value))
-> NamedSchema
-> Identity NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
.(Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema
forall s a. HasExample s a => Lens' s a
example ((Maybe Value -> Identity (Maybe Value))
-> Declare (Definitions Schema) NamedSchema
-> Identity (Declare (Definitions Schema) NamedSchema))
-> Value
-> Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) NamedSchema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Char -> Value
forall a. ToJSON a => a -> Value
toJSON Char
'?'
instance ToSchema Scientific where declareNamedSchema :: Proxy Scientific -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Scientific -> Schema)
-> Proxy Scientific
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Scientific -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Double where declareNamedSchema :: Proxy Double -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Double -> Schema)
-> Proxy Double
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Double -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Float where declareNamedSchema :: Proxy Float -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Float -> Schema)
-> Proxy Float
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Float -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance HasResolution a => ToSchema (Fixed a) where declareNamedSchema :: Proxy (Fixed a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy (Fixed a) -> Schema)
-> Proxy (Fixed a)
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy (Fixed a) -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema a => ToSchema (Maybe a) where
declareNamedSchema :: Proxy (Maybe a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Maybe a)
_ = Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy a
forall k (t :: k). Proxy t
Proxy :: Proxy a)
instance (ToSchema a, ToSchema b) => ToSchema (Either a b) where
declareNamedSchema :: Proxy (Either a b) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = SchemaOptions
-> Proxy (Either a b) -> Declare (Definitions Schema) NamedSchema
forall a.
(Generic a, GToSchema (Rep a)) =>
SchemaOptions
-> Proxy a -> Declare (Definitions Schema) NamedSchema
genericDeclareNamedSchema SchemaOptions
defaultSchemaOptions { sumEncoding :: SumEncoding
sumEncoding = SumEncoding
ObjectWithSingleField }
instance ToSchema () where
declareNamedSchema :: Proxy () -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy ()
_ = NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a. Applicative f => a -> f a
pure (Maybe Text -> Schema -> NamedSchema
NamedSchema Maybe Text
forall a. Maybe a
Nothing Schema
nullarySchema)
instance ToSchema UUID.UUID where
declareNamedSchema :: Proxy UUID -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy UUID
p = NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a. Applicative f => a -> f a
pure (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema -> NamedSchema
named Text
"UUID" (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Proxy UUID -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema Proxy UUID
p
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema
forall s a. HasExample s a => Lens' s a
example ((Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema)
-> Value -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Text -> Value
forall a. ToJSON a => a -> Value
toJSON (UUID -> Text
UUID.toText UUID
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 :: Text -> Schema
timeSchema Text
fmt = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiString
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Text -> Identity (Maybe Text)) -> Schema -> Identity Schema
forall s a. HasFormat s a => Lens' s a
format ((Maybe Text -> Identity (Maybe Text))
-> Schema -> Identity Schema)
-> Text -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Text
fmt
instance ToSchema Day where
declareNamedSchema :: Proxy Day -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy Day
_ = NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a. Applicative f => a -> f a
pure (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema -> NamedSchema
named Text
"Day" (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema
timeSchema Text
"date"
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema
forall s a. HasExample s a => Lens' s a
example ((Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema)
-> Value -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Day -> Value
forall a. ToJSON a => a -> Value
toJSON (Integer -> Int -> Int -> Day
fromGregorian Integer
2016 Int
7 Int
22)
instance ToSchema LocalTime where
declareNamedSchema :: Proxy LocalTime -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy LocalTime
_ = NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a. Applicative f => a -> f a
pure (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema -> NamedSchema
named Text
"LocalTime" (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema
timeSchema Text
"yyyy-mm-ddThh:MM:ss"
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema
forall s a. HasExample s a => Lens' s a
example ((Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema)
-> Value -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ LocalTime -> Value
forall a. ToJSON a => a -> Value
toJSON (Day -> TimeOfDay -> LocalTime
LocalTime (Integer -> Int -> Int -> Day
fromGregorian Integer
2016 Int
7 Int
22) (Int -> Int -> Pico -> TimeOfDay
TimeOfDay Int
7 Int
40 Pico
0))
instance ToSchema ZonedTime where
declareNamedSchema :: Proxy ZonedTime -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy ZonedTime
_ = NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a. Applicative f => a -> f a
pure (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema -> NamedSchema
named Text
"ZonedTime" (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema
timeSchema Text
"date-time"
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema
forall s a. HasExample s a => Lens' s a
example ((Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema)
-> Value -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ ZonedTime -> Value
forall a. ToJSON a => a -> Value
toJSON (LocalTime -> TimeZone -> ZonedTime
ZonedTime (Day -> TimeOfDay -> LocalTime
LocalTime (Integer -> Int -> Int -> Day
fromGregorian Integer
2016 Int
7 Int
22) (Int -> Int -> Pico -> TimeOfDay
TimeOfDay Int
7 Int
40 Pico
0)) (Int -> TimeZone
hoursToTimeZone Int
3))
instance ToSchema NominalDiffTime where
declareNamedSchema :: Proxy NominalDiffTime -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy NominalDiffTime
_ = Proxy Pico -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy Pico
forall k (t :: k). Proxy t
Proxy :: Proxy Pico)
instance ToSchema UTCTime where
declareNamedSchema :: Proxy UTCTime -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy UTCTime
_ = NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a. Applicative f => a -> f a
pure (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema -> NamedSchema
named Text
"UTCTime" (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Text -> Schema
timeSchema Text
"yyyy-mm-ddThh:MM:ssZ"
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema
forall s a. HasExample s a => Lens' s a
example ((Maybe Value -> Identity (Maybe Value))
-> Schema -> Identity Schema)
-> Value -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ UTCTime -> Value
forall a. ToJSON a => a -> Value
toJSON (Day -> DiffTime -> UTCTime
UTCTime (Integer -> Int -> Int -> Day
fromGregorian Integer
2016 Int
7 Int
22) DiffTime
0)
instance ToSchema T.Text where declareNamedSchema :: Proxy Text -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Text -> Schema)
-> Proxy Text
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Text -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema TL.Text where declareNamedSchema :: Proxy Text -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Text -> Schema)
-> Proxy Text
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Text -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Version where declareNamedSchema :: Proxy Version -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Version -> Schema)
-> Proxy Version
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Version -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
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 :: Proxy ByteString -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = String
-> Proxy ByteString -> Declare (Definitions Schema) NamedSchema
forall a. HasCallStack => String -> a
error String
"impossible"
instance ToSchemaByteStringError BSL.ByteString => ToSchema BSL.ByteString where declareNamedSchema :: Proxy ByteString -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = String
-> Proxy ByteString -> Declare (Definitions Schema) NamedSchema
forall a. HasCallStack => String -> a
error String
"impossible"
instance ToSchema IntSet where declareNamedSchema :: Proxy IntSet -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy IntSet
_ = Proxy (Set Int) -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy (Set Int)
forall k (t :: k). Proxy t
Proxy :: Proxy (Set Int))
instance ToSchema a => ToSchema (IntMap a) where
declareNamedSchema :: Proxy (IntMap a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (IntMap a)
_ = Proxy [(Int, a)] -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy [(Int, a)]
forall k (t :: k). Proxy t
Proxy :: Proxy [(Int, a)])
instance (ToJSONKey k, ToSchema k, ToSchema v) => ToSchema (Map k v) where
declareNamedSchema :: Proxy (Map k v) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Map k v)
_ = case ToJSONKeyFunction k
forall a. ToJSONKey a => ToJSONKeyFunction a
toJSONKey :: ToJSONKeyFunction k of
ToJSONKeyText k -> Text
_ k -> Encoding' Text
_ -> Declare (Definitions Schema) NamedSchema
declareObjectMapSchema
ToJSONKeyValue k -> Value
_ k -> Encoding
_ -> Proxy [(k, v)] -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy [(k, v)]
forall k (t :: k). Proxy t
Proxy :: Proxy [(k, v)])
where
declareObjectMapSchema :: Declare (Definitions Schema) NamedSchema
declareObjectMapSchema = do
Referenced Schema
schema <- Proxy v -> Declare (Definitions Schema) (Referenced Schema)
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) (Referenced Schema)
declareSchemaRef (Proxy v
forall k (t :: k). Proxy t
Proxy :: Proxy v)
NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (m :: * -> *) a. Monad m => a -> m a
return (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema -> NamedSchema
unnamed (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe AdditionalProperties
-> Identity (Maybe AdditionalProperties))
-> Schema -> Identity Schema
forall s a. HasAdditionalProperties s a => Lens' s a
additionalProperties ((Maybe AdditionalProperties
-> Identity (Maybe AdditionalProperties))
-> Schema -> Identity Schema)
-> AdditionalProperties -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Referenced Schema -> AdditionalProperties
AdditionalPropertiesSchema Referenced Schema
schema
instance (ToJSONKey k, ToSchema k, ToSchema v) => ToSchema (HashMap k v) where
declareNamedSchema :: Proxy (HashMap k v) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (HashMap k v)
_ = Proxy (Map k v) -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy (Map k v)
forall k (t :: k). Proxy t
Proxy :: Proxy (Map k v))
instance {-# OVERLAPPING #-} ToSchema Object where
declareNamedSchema :: Proxy Object -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy Object
_ = NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a. Applicative f => a -> f a
pure (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Maybe Text -> Schema -> NamedSchema
NamedSchema (Text -> Maybe Text
forall a. a -> Maybe a
Just Text
"Object") (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Text -> Identity (Maybe Text)) -> Schema -> Identity Schema
forall s a. HasDescription s a => Lens' s a
description ((Maybe Text -> Identity (Maybe Text))
-> Schema -> Identity Schema)
-> Text -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Text
"Arbitrary JSON object."
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe AdditionalProperties
-> Identity (Maybe AdditionalProperties))
-> Schema -> Identity Schema
forall s a. HasAdditionalProperties s a => Lens' s a
additionalProperties ((Maybe AdditionalProperties
-> Identity (Maybe AdditionalProperties))
-> Schema -> Identity Schema)
-> AdditionalProperties -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Bool -> AdditionalProperties
AdditionalPropertiesAllowed Bool
True
instance ToSchema a => ToSchema (V.Vector a) where declareNamedSchema :: Proxy (Vector a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Vector a)
_ = Proxy [a] -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy [a]
forall k (t :: k). Proxy t
Proxy :: Proxy [a])
instance ToSchema a => ToSchema (VU.Vector a) where declareNamedSchema :: Proxy (Vector a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Vector a)
_ = Proxy [a] -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy [a]
forall k (t :: k). Proxy t
Proxy :: Proxy [a])
instance ToSchema a => ToSchema (VS.Vector a) where declareNamedSchema :: Proxy (Vector a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Vector a)
_ = Proxy [a] -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy [a]
forall k (t :: k). Proxy t
Proxy :: Proxy [a])
instance ToSchema a => ToSchema (VP.Vector a) where declareNamedSchema :: Proxy (Vector a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Vector a)
_ = Proxy [a] -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy [a]
forall k (t :: k). Proxy t
Proxy :: Proxy [a])
instance ToSchema a => ToSchema (Set a) where
declareNamedSchema :: Proxy (Set a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Set a)
_ = do
Schema
schema <- Proxy [a] -> Declare (Definitions Schema) Schema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) Schema
declareSchema (Proxy [a]
forall k (t :: k). Proxy t
Proxy :: Proxy [a])
NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (m :: * -> *) a. Monad m => a -> m a
return (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema -> NamedSchema
unnamed (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema
schema
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Bool -> Identity (Maybe Bool)) -> Schema -> Identity Schema
forall s a. HasUniqueItems s a => Lens' s a
uniqueItems ((Maybe Bool -> Identity (Maybe Bool))
-> Schema -> Identity Schema)
-> Bool -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Bool
True
instance ToSchema a => ToSchema (HashSet a) where declareNamedSchema :: Proxy (HashSet a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (HashSet a)
_ = Proxy (Set a) -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy (Set a)
forall k (t :: k). Proxy t
Proxy :: Proxy (Set a))
instance ToSchema a => ToSchema (NonEmpty a) where
declareNamedSchema :: Proxy (NonEmpty a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (NonEmpty a)
_ = do
Schema
schema <- Proxy [a] -> Declare (Definitions Schema) Schema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) Schema
declareSchema (Proxy [a]
forall k (t :: k). Proxy t
Proxy :: Proxy [a])
NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (m :: * -> *) a. Monad m => a -> m a
return (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema -> NamedSchema
unnamed (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema
schema
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema
forall s a. HasMinItems s a => Lens' s a
minItems ((Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema)
-> Maybe Integer -> Schema -> Schema
forall s t a b. ASetter s t a b -> b -> s -> t
.~ Integer -> Maybe Integer
forall a. a -> Maybe a
Just Integer
1
instance ToSchema All where declareNamedSchema :: Proxy All -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy All -> Schema)
-> Proxy All
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy All -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema Any where declareNamedSchema :: Proxy Any -> Declare (Definitions Schema) NamedSchema
declareNamedSchema = Schema -> Declare (Definitions Schema) NamedSchema
plain (Schema -> Declare (Definitions Schema) NamedSchema)
-> (Proxy Any -> Schema)
-> Proxy Any
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy Any -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema
instance ToSchema a => ToSchema (Sum a) where declareNamedSchema :: Proxy (Sum a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Sum a)
_ = NamedSchema -> NamedSchema
unname (NamedSchema -> NamedSchema)
-> Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy a
forall k (t :: k). Proxy t
Proxy :: Proxy a)
instance ToSchema a => ToSchema (Product a) where declareNamedSchema :: Proxy (Product a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Product a)
_ = NamedSchema -> NamedSchema
unname (NamedSchema -> NamedSchema)
-> Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy a
forall k (t :: k). Proxy t
Proxy :: Proxy a)
instance ToSchema a => ToSchema (First a) where declareNamedSchema :: Proxy (First a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (First a)
_ = NamedSchema -> NamedSchema
unname (NamedSchema -> NamedSchema)
-> Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy a
forall k (t :: k). Proxy t
Proxy :: Proxy a)
instance ToSchema a => ToSchema (Last a) where declareNamedSchema :: Proxy (Last a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Last a)
_ = NamedSchema -> NamedSchema
unname (NamedSchema -> NamedSchema)
-> Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy a
forall k (t :: k). Proxy t
Proxy :: Proxy a)
instance ToSchema a => ToSchema (Dual a) where declareNamedSchema :: Proxy (Dual a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Dual a)
_ = NamedSchema -> NamedSchema
unname (NamedSchema -> NamedSchema)
-> Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy a
forall k (t :: k). Proxy t
Proxy :: Proxy a)
instance ToSchema a => ToSchema (Identity a) where declareNamedSchema :: Proxy (Identity a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (Identity a)
_ = Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy a
forall k (t :: k). Proxy t
Proxy :: Proxy a)
toSchemaBoundedIntegral :: forall a. (Bounded a, Integral a) => Proxy a -> Schema
toSchemaBoundedIntegral :: Proxy a -> Schema
toSchemaBoundedIntegral Proxy a
_ = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiInteger
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Scientific -> Identity (Maybe Scientific))
-> Schema -> Identity Schema
forall s a. HasMinimum s a => Lens' s a
minimum_ ((Maybe Scientific -> Identity (Maybe Scientific))
-> Schema -> Identity Schema)
-> Scientific -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Integer -> Scientific
forall a. Num a => Integer -> a
fromInteger (a -> Integer
forall a. Integral a => a -> Integer
toInteger (a
forall a. Bounded a => a
minBound :: a))
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Scientific -> Identity (Maybe Scientific))
-> Schema -> Identity Schema
forall s a. HasMaximum s a => Lens' s a
maximum_ ((Maybe Scientific -> Identity (Maybe Scientific))
-> Schema -> Identity Schema)
-> Scientific -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Integer -> Scientific
forall a. Num a => Integer -> a
fromInteger (a -> Integer
forall a. Integral a => a -> Integer
toInteger (a
forall a. Bounded a => a
maxBound :: a))
genericToNamedSchemaBoundedIntegral :: forall a d f.
( Bounded a, Integral a
, Generic a, Rep a ~ D1 d f, Datatype d)
=> SchemaOptions -> Proxy a -> NamedSchema
genericToNamedSchemaBoundedIntegral :: SchemaOptions -> Proxy a -> NamedSchema
genericToNamedSchemaBoundedIntegral SchemaOptions
opts Proxy a
proxy
= SchemaOptions -> Proxy a -> Schema -> NamedSchema
forall a (d :: Meta) (f :: * -> *).
(Generic a, Rep a ~ D1 d f, Datatype d) =>
SchemaOptions -> Proxy a -> Schema -> NamedSchema
genericNameSchema SchemaOptions
opts Proxy a
proxy (Proxy a -> Schema
forall a. (Bounded a, Integral a) => Proxy a -> Schema
toSchemaBoundedIntegral Proxy a
proxy)
genericDeclareNamedSchemaNewtype :: forall a d c s i inner.
(Generic a, Datatype d, Rep a ~ D1 d (C1 c (S1 s (K1 i inner))))
=> SchemaOptions
-> (Proxy inner -> Declare (Definitions Schema) Schema)
-> Proxy a
-> Declare (Definitions Schema) NamedSchema
genericDeclareNamedSchemaNewtype :: SchemaOptions
-> (Proxy inner -> Declare (Definitions Schema) Schema)
-> Proxy a
-> Declare (Definitions Schema) NamedSchema
genericDeclareNamedSchemaNewtype SchemaOptions
opts Proxy inner -> Declare (Definitions Schema) Schema
f Proxy a
proxy = SchemaOptions -> Proxy a -> Schema -> NamedSchema
forall a (d :: Meta) (f :: * -> *).
(Generic a, Rep a ~ D1 d f, Datatype d) =>
SchemaOptions -> Proxy a -> Schema -> NamedSchema
genericNameSchema SchemaOptions
opts Proxy a
proxy (Schema -> NamedSchema)
-> Declare (Definitions Schema) Schema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Proxy inner -> Declare (Definitions Schema) Schema
f (Proxy inner
forall k (t :: k). Proxy t
Proxy :: Proxy inner)
declareSchemaBoundedEnumKeyMapping :: forall map key value.
(Bounded key, Enum key, ToJSONKey key, ToSchema key, ToSchema value)
=> Proxy (map key value) -> Declare (Definitions Schema) Schema
declareSchemaBoundedEnumKeyMapping :: Proxy (map key value) -> Declare (Definitions Schema) Schema
declareSchemaBoundedEnumKeyMapping Proxy (map key value)
_ = case ToJSONKeyFunction key
forall a. ToJSONKey a => ToJSONKeyFunction a
toJSONKey :: ToJSONKeyFunction key of
ToJSONKeyText key -> Text
keyToText key -> Encoding' Text
_ -> (key -> Text) -> Declare (Definitions Schema) Schema
objectSchema key -> Text
keyToText
ToJSONKeyValue key -> Value
_ key -> Encoding
_ -> Proxy [(key, value)] -> Declare (Definitions Schema) Schema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) Schema
declareSchema (Proxy [(key, value)]
forall k (t :: k). Proxy t
Proxy :: Proxy [(key, value)])
where
objectSchema :: (key -> Text) -> Declare (Definitions Schema) Schema
objectSchema key -> Text
keyToText = do
Referenced Schema
valueRef <- Proxy value -> Declare (Definitions Schema) (Referenced Schema)
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) (Referenced Schema)
declareSchemaRef (Proxy value
forall k (t :: k). Proxy t
Proxy :: Proxy value)
let allKeys :: [key]
allKeys = [Item [key]
forall a. Bounded a => a
minBound..key
forall a. Bounded a => a
maxBound :: key]
mkPair :: key -> (Text, Referenced Schema)
mkPair key
k = (key -> Text
keyToText key
k, Referenced Schema
valueRef)
Schema -> Declare (Definitions Schema) Schema
forall (m :: * -> *) a. Monad m => a -> m a
return (Schema -> Declare (Definitions Schema) Schema)
-> Schema -> Declare (Definitions Schema) Schema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema
forall s a. HasProperties s a => Lens' s a
properties ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema)
-> InsOrdHashMap Text (Referenced Schema) -> Schema -> Schema
forall s t a b. ASetter s t a b -> b -> s -> t
.~ [(Text, Referenced Schema)]
-> InsOrdHashMap Text (Referenced Schema)
forall k v. (Eq k, Hashable k) => [(k, v)] -> InsOrdHashMap k v
InsOrdHashMap.fromList ((key -> (Text, Referenced Schema))
-> [key] -> [(Text, Referenced Schema)]
forall a b. (a -> b) -> [a] -> [b]
map key -> (Text, Referenced Schema)
mkPair [key]
allKeys)
toSchemaBoundedEnumKeyMapping :: forall map key value.
(Bounded key, Enum key, ToJSONKey key, ToSchema key, ToSchema value)
=> Proxy (map key value) -> Schema
toSchemaBoundedEnumKeyMapping :: Proxy (map key value) -> Schema
toSchemaBoundedEnumKeyMapping = (Declare (Definitions Schema) Schema
-> Definitions Schema -> Schema)
-> Definitions Schema
-> Declare (Definitions Schema) Schema
-> Schema
forall a b c. (a -> b -> c) -> b -> a -> c
flip Declare (Definitions Schema) Schema -> Definitions Schema -> Schema
forall d a. Declare d a -> d -> a
evalDeclare Definitions Schema
forall a. Monoid a => a
mempty (Declare (Definitions Schema) Schema -> Schema)
-> (Proxy (map key value) -> Declare (Definitions Schema) Schema)
-> Proxy (map key value)
-> Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Proxy (map key value) -> Declare (Definitions Schema) Schema
forall k (map :: * -> * -> k) key value.
(Bounded key, Enum key, ToJSONKey key, ToSchema key,
ToSchema value) =>
Proxy (map key value) -> Declare (Definitions Schema) Schema
declareSchemaBoundedEnumKeyMapping
genericDeclareSchema :: (Generic a, GToSchema (Rep a)) =>
SchemaOptions -> Proxy a -> Declare (Definitions Schema) Schema
genericDeclareSchema :: SchemaOptions -> Proxy a -> Declare (Definitions Schema) Schema
genericDeclareSchema SchemaOptions
opts Proxy a
proxy = NamedSchema -> Schema
_namedSchemaSchema (NamedSchema -> Schema)
-> Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) Schema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> SchemaOptions
-> Proxy a -> Declare (Definitions Schema) NamedSchema
forall a.
(Generic a, GToSchema (Rep a)) =>
SchemaOptions
-> Proxy a -> Declare (Definitions Schema) NamedSchema
genericDeclareNamedSchema SchemaOptions
opts Proxy a
proxy
genericDeclareNamedSchema :: forall a. (Generic a, GToSchema (Rep a)) =>
SchemaOptions -> Proxy a -> Declare (Definitions Schema) NamedSchema
genericDeclareNamedSchema :: SchemaOptions
-> Proxy a -> Declare (Definitions Schema) NamedSchema
genericDeclareNamedSchema SchemaOptions
opts Proxy a
_ = SchemaOptions
-> Proxy (Rep a)
-> Schema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts (Proxy (Rep a)
forall k (t :: k). Proxy t
Proxy :: Proxy (Rep a)) Schema
forall a. Monoid a => a
mempty
genericNameSchema :: forall a d f.
(Generic a, Rep a ~ D1 d f, Datatype d)
=> SchemaOptions -> Proxy a -> Schema -> NamedSchema
genericNameSchema :: SchemaOptions -> Proxy a -> Schema -> NamedSchema
genericNameSchema SchemaOptions
opts Proxy a
_ = Maybe Text -> Schema -> NamedSchema
NamedSchema (SchemaOptions -> Proxy d -> Maybe Text
forall k (d :: k).
Datatype d =>
SchemaOptions -> Proxy d -> Maybe Text
gdatatypeSchemaName SchemaOptions
opts (Proxy d
forall k (t :: k). Proxy t
Proxy :: Proxy d))
gdatatypeSchemaName :: forall d. Datatype d => SchemaOptions -> Proxy d -> Maybe T.Text
gdatatypeSchemaName :: SchemaOptions -> Proxy d -> Maybe Text
gdatatypeSchemaName SchemaOptions
opts Proxy d
_ = case String
orig of
(Char
c:String
_) | Char -> Bool
isAlpha Char
c Bool -> Bool -> Bool
&& Char -> Bool
isUpper Char
c -> Text -> Maybe Text
forall a. a -> Maybe a
Just (String -> Text
T.pack String
name)
String
_ -> Maybe Text
forall a. Maybe a
Nothing
where
orig :: String
orig = Proxy3 d Any Any -> String
forall k (d :: k) k1 (t :: k -> (k1 -> *) -> k1 -> *)
(f :: k1 -> *) (a :: k1).
Datatype d =>
t d f a -> String
datatypeName (forall k k (f :: k) (a :: k). Proxy3 d f a
forall k k k (a :: k) (b :: k) (c :: k). Proxy3 a b c
Proxy3 :: Proxy3 d f a)
name :: String
name = SchemaOptions -> String -> String
datatypeNameModifier SchemaOptions
opts String
orig
paramSchemaToNamedSchema :: (ToParamSchema a, Generic a, Rep a ~ D1 d f, Datatype d) =>
SchemaOptions -> Proxy a -> NamedSchema
paramSchemaToNamedSchema :: SchemaOptions -> Proxy a -> NamedSchema
paramSchemaToNamedSchema SchemaOptions
opts Proxy a
proxy = SchemaOptions -> Proxy a -> Schema -> NamedSchema
forall a (d :: Meta) (f :: * -> *).
(Generic a, Rep a ~ D1 d f, Datatype d) =>
SchemaOptions -> Proxy a -> Schema -> NamedSchema
genericNameSchema SchemaOptions
opts Proxy a
proxy (Proxy a -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema Proxy a
proxy)
paramSchemaToSchema :: ToParamSchema a => Proxy a -> Schema
paramSchemaToSchema :: Proxy a -> Schema
paramSchemaToSchema = Proxy a -> Schema
forall a. ToParamSchema a => Proxy a -> Schema
toParamSchema
nullarySchema :: Schema
nullarySchema :: Schema
nullarySchema = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiArray
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiItems -> Identity (Maybe OpenApiItems))
-> Schema -> Identity Schema
forall s a. HasItems s a => Lens' s a
items ((Maybe OpenApiItems -> Identity (Maybe OpenApiItems))
-> Schema -> Identity Schema)
-> OpenApiItems -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Referenced Schema] -> OpenApiItems
OpenApiItemsArray []
gtoNamedSchema :: GToSchema f => SchemaOptions -> Proxy f -> NamedSchema
gtoNamedSchema :: SchemaOptions -> Proxy f -> NamedSchema
gtoNamedSchema SchemaOptions
opts Proxy f
proxy = Declare (Definitions Schema) NamedSchema -> NamedSchema
forall d a. Monoid d => Declare d a -> a
undeclare (Declare (Definitions Schema) NamedSchema -> NamedSchema)
-> Declare (Definitions Schema) NamedSchema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts Proxy f
proxy Schema
forall a. Monoid a => a
mempty
gdeclareSchema :: GToSchema f => SchemaOptions -> Proxy f -> Declare (Definitions Schema) Schema
gdeclareSchema :: SchemaOptions -> Proxy f -> Declare (Definitions Schema) Schema
gdeclareSchema SchemaOptions
opts Proxy f
proxy = NamedSchema -> Schema
_namedSchemaSchema (NamedSchema -> Schema)
-> Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) Schema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts Proxy f
proxy Schema
forall a. Monoid a => a
mempty
instance (GToSchema f, GToSchema g) => GToSchema (f :*: g) where
gdeclareNamedSchema :: SchemaOptions
-> Proxy (f :*: g)
-> Schema
-> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts Proxy (f :*: g)
_ Schema
schema = do
NamedSchema Maybe Text
_ Schema
gschema <- SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts (Proxy f
forall k (t :: k). Proxy t
Proxy :: Proxy f) Schema
schema
SchemaOptions
-> Proxy g -> Schema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts (Proxy g
forall k (t :: k). Proxy t
Proxy :: Proxy g) Schema
gschema
instance (Datatype d, GToSchema f) => GToSchema (D1 d f) where
gdeclareNamedSchema :: SchemaOptions
-> Proxy (D1 d f)
-> Schema
-> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts Proxy (D1 d f)
_ Schema
s = Maybe Text -> NamedSchema -> NamedSchema
rename Maybe Text
name (NamedSchema -> NamedSchema)
-> Declare (Definitions Schema) NamedSchema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts (Proxy f
forall k (t :: k). Proxy t
Proxy :: Proxy f) Schema
s
where
name :: Maybe Text
name = SchemaOptions -> Proxy d -> Maybe Text
forall k (d :: k).
Datatype d =>
SchemaOptions -> Proxy d -> Maybe Text
gdatatypeSchemaName SchemaOptions
opts (Proxy d
forall k (t :: k). Proxy t
Proxy :: Proxy d)
instance {-# OVERLAPPABLE #-} GToSchema f => GToSchema (C1 c f) where
gdeclareNamedSchema :: SchemaOptions
-> Proxy (C1 c f)
-> Schema
-> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts Proxy (C1 c f)
_ = SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts (Proxy f
forall k (t :: k). Proxy t
Proxy :: Proxy f)
instance {-# OVERLAPPING #-} Constructor c => GToSchema (C1 c U1) where
gdeclareNamedSchema :: SchemaOptions
-> Proxy (C1 c U1)
-> Schema
-> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema = SchemaOptions
-> Proxy (C1 c U1)
-> Schema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GSumToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSumSchema
instance (Selector s, GToSchema f, GToSchema (S1 s f)) => GToSchema (C1 c (S1 s f)) where
gdeclareNamedSchema :: SchemaOptions
-> Proxy (C1 c (S1 s f))
-> Schema
-> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts Proxy (C1 c (S1 s f))
_ Schema
s
| SchemaOptions -> Bool
unwrapUnaryRecords SchemaOptions
opts = Declare (Definitions Schema) NamedSchema
fieldSchema
| Bool
otherwise =
case Schema
schema Schema
-> Getting (Maybe OpenApiItems) Schema (Maybe OpenApiItems)
-> Maybe OpenApiItems
forall s a. s -> Getting a s a -> a
^. Getting (Maybe OpenApiItems) Schema (Maybe OpenApiItems)
forall s a. HasItems s a => Lens' s a
items of
Just (OpenApiItemsArray [Item [Referenced Schema]
_]) -> Declare (Definitions Schema) NamedSchema
fieldSchema
Maybe OpenApiItems
_ -> do
Definitions Schema -> DeclareT (Definitions Schema) Identity ()
forall d (m :: * -> *). MonadDeclare d m => d -> m ()
declare Definitions Schema
defs
NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (m :: * -> *) a. Monad m => a -> m a
return (Schema -> NamedSchema
unnamed Schema
schema)
where
(Definitions Schema
defs, NamedSchema Maybe Text
_ Schema
schema) = Declare (Definitions Schema) NamedSchema
-> Definitions Schema -> (Definitions Schema, NamedSchema)
forall d a. Declare d a -> d -> (d, a)
runDeclare Declare (Definitions Schema) NamedSchema
recordSchema Definitions Schema
forall a. Monoid a => a
mempty
recordSchema :: Declare (Definitions Schema) NamedSchema
recordSchema = SchemaOptions
-> Proxy (S1 s f)
-> Schema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts (Proxy (S1 s f)
forall k (t :: k). Proxy t
Proxy :: Proxy (S1 s f)) Schema
s
fieldSchema :: Declare (Definitions Schema) NamedSchema
fieldSchema = SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts (Proxy f
forall k (t :: k). Proxy t
Proxy :: Proxy f) Schema
s
gdeclareSchemaRef :: GToSchema a => SchemaOptions -> Proxy a -> Declare (Definitions Schema) (Referenced Schema)
gdeclareSchemaRef :: SchemaOptions
-> Proxy a -> Declare (Definitions Schema) (Referenced Schema)
gdeclareSchemaRef SchemaOptions
opts Proxy a
proxy = do
case SchemaOptions -> Proxy a -> NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions -> Proxy f -> NamedSchema
gtoNamedSchema SchemaOptions
opts Proxy a
proxy of
NamedSchema (Just Text
name) Schema
schema -> do
Bool
known <- (Definitions Schema -> Bool)
-> DeclareT (Definitions Schema) Identity Bool
forall d (m :: * -> *) a. MonadDeclare d m => (d -> a) -> m a
looks (Text -> Definitions Schema -> Bool
forall k a. (Eq k, Hashable k) => k -> InsOrdHashMap k a -> Bool
InsOrdHashMap.member Text
name)
Bool
-> DeclareT (Definitions Schema) Identity ()
-> DeclareT (Definitions Schema) Identity ()
forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when (Bool -> Bool
not Bool
known) (DeclareT (Definitions Schema) Identity ()
-> DeclareT (Definitions Schema) Identity ())
-> DeclareT (Definitions Schema) Identity ()
-> DeclareT (Definitions Schema) Identity ()
forall a b. (a -> b) -> a -> b
$ do
Definitions Schema -> DeclareT (Definitions Schema) Identity ()
forall d (m :: * -> *). MonadDeclare d m => d -> m ()
declare [(Text
name, Schema
schema)]
Declare (Definitions Schema) NamedSchema
-> DeclareT (Definitions Schema) Identity ()
forall (f :: * -> *) a. Functor f => f a -> f ()
void (Declare (Definitions Schema) NamedSchema
-> DeclareT (Definitions Schema) Identity ())
-> Declare (Definitions Schema) NamedSchema
-> DeclareT (Definitions Schema) Identity ()
forall a b. (a -> b) -> a -> b
$ SchemaOptions
-> Proxy a -> Schema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts Proxy a
proxy Schema
forall a. Monoid a => a
mempty
Referenced Schema
-> Declare (Definitions Schema) (Referenced Schema)
forall (m :: * -> *) a. Monad m => a -> m a
return (Referenced Schema
-> Declare (Definitions Schema) (Referenced Schema))
-> Referenced Schema
-> Declare (Definitions Schema) (Referenced Schema)
forall a b. (a -> b) -> a -> b
$ Reference -> Referenced Schema
forall a. Reference -> Referenced a
Ref (Text -> Reference
Reference Text
name)
NamedSchema
_ -> Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema)
-> Declare (Definitions Schema) Schema
-> Declare (Definitions Schema) (Referenced Schema)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> SchemaOptions -> Proxy a -> Declare (Definitions Schema) Schema
forall (f :: * -> *).
GToSchema f =>
SchemaOptions -> Proxy f -> Declare (Definitions Schema) Schema
gdeclareSchema SchemaOptions
opts Proxy a
proxy
appendItem :: Referenced Schema -> Maybe OpenApiItems -> Maybe OpenApiItems
appendItem :: Referenced Schema -> Maybe OpenApiItems -> Maybe OpenApiItems
appendItem Referenced Schema
x Maybe OpenApiItems
Nothing = OpenApiItems -> Maybe OpenApiItems
forall a. a -> Maybe a
Just ([Referenced Schema] -> OpenApiItems
OpenApiItemsArray [Item [Referenced Schema]
Referenced Schema
x])
appendItem Referenced Schema
x (Just (OpenApiItemsArray [Referenced Schema]
xs)) = OpenApiItems -> Maybe OpenApiItems
forall a. a -> Maybe a
Just ([Referenced Schema] -> OpenApiItems
OpenApiItemsArray ([Referenced Schema]
xs [Referenced Schema] -> [Referenced Schema] -> [Referenced Schema]
forall a. [a] -> [a] -> [a]
++ [Item [Referenced Schema]
Referenced Schema
x]))
appendItem Referenced Schema
_ Maybe OpenApiItems
_ = String -> Maybe OpenApiItems
forall a. HasCallStack => String -> a
error String
"GToSchema.appendItem: cannot append to OpenApiItemsObject"
withFieldSchema :: forall proxy s f. (Selector s, GToSchema f) =>
SchemaOptions -> proxy s f -> Bool -> Schema -> Declare (Definitions Schema) Schema
withFieldSchema :: SchemaOptions
-> proxy s f
-> Bool
-> Schema
-> Declare (Definitions Schema) Schema
withFieldSchema SchemaOptions
opts proxy s f
_ Bool
isRequiredField Schema
schema = do
Referenced Schema
ref <- SchemaOptions
-> Proxy f -> Declare (Definitions Schema) (Referenced Schema)
forall (a :: * -> *).
GToSchema a =>
SchemaOptions
-> Proxy a -> Declare (Definitions Schema) (Referenced Schema)
gdeclareSchemaRef SchemaOptions
opts (Proxy f
forall k (t :: k). Proxy t
Proxy :: Proxy f)
Schema -> Declare (Definitions Schema) Schema
forall (m :: * -> *) a. Monad m => a -> m a
return (Schema -> Declare (Definitions Schema) Schema)
-> Schema -> Declare (Definitions Schema) Schema
forall a b. (a -> b) -> a -> b
$
if Text -> Bool
T.null Text
fname
then Schema
schema
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiArray
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiItems -> Identity (Maybe OpenApiItems))
-> Schema -> Identity Schema
forall s a. HasItems s a => Lens' s a
items ((Maybe OpenApiItems -> Identity (Maybe OpenApiItems))
-> Schema -> Identity Schema)
-> (Maybe OpenApiItems -> Maybe OpenApiItems) -> Schema -> Schema
forall s t a b. ASetter s t a b -> (a -> b) -> s -> t
%~ Referenced Schema -> Maybe OpenApiItems -> Maybe OpenApiItems
appendItem Referenced Schema
ref
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema
forall s a. HasMaxItems s a => Lens' s a
maxItems ((Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema)
-> (Maybe Integer -> Maybe Integer) -> Schema -> Schema
forall s t a b. ASetter s t a b -> (a -> b) -> s -> t
%~ Integer -> Maybe Integer
forall a. a -> Maybe a
Just (Integer -> Maybe Integer)
-> (Maybe Integer -> Integer) -> Maybe Integer -> Maybe Integer
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Integer -> (Integer -> Integer) -> Maybe Integer -> Integer
forall b a. b -> (a -> b) -> Maybe a -> b
maybe Integer
1 (Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
+Integer
1)
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema
forall s a. HasMinItems s a => Lens' s a
minItems ((Maybe Integer -> Identity (Maybe Integer))
-> Schema -> Identity Schema)
-> (Maybe Integer -> Maybe Integer) -> Schema -> Schema
forall s t a b. ASetter s t a b -> (a -> b) -> s -> t
%~ Integer -> Maybe Integer
forall a. a -> Maybe a
Just (Integer -> Maybe Integer)
-> (Maybe Integer -> Integer) -> Maybe Integer -> Maybe Integer
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Integer -> (Integer -> Integer) -> Maybe Integer -> Integer
forall b a. b -> (a -> b) -> Maybe a -> b
maybe Integer
1 (Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
+Integer
1)
else Schema
schema
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema
forall s a. HasProperties s a => Lens' s a
properties ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema)
-> ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> (Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema
-> Identity Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Index (InsOrdHashMap Text (Referenced Schema))
-> Lens'
(InsOrdHashMap Text (Referenced Schema))
(Maybe (IxValue (InsOrdHashMap Text (Referenced Schema))))
forall m. At m => Index m -> Lens' m (Maybe (IxValue m))
at Text
Index (InsOrdHashMap Text (Referenced Schema))
fname ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema -> Identity Schema)
-> Referenced Schema -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Referenced Schema
ref
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& if Bool
isRequiredField
then ([Text] -> Identity [Text]) -> Schema -> Identity Schema
forall s a. HasRequired s a => Lens' s a
required (([Text] -> Identity [Text]) -> Schema -> Identity Schema)
-> ([Text] -> [Text]) -> Schema -> Schema
forall s t a b. ASetter s t a b -> (a -> b) -> s -> t
%~ ([Text] -> [Text] -> [Text]
forall a. [a] -> [a] -> [a]
++ [Text
Item [Text]
fname])
else Schema -> Schema
forall a. a -> a
id
where
fname :: Text
fname = String -> Text
T.pack (SchemaOptions -> String -> String
fieldLabelModifier SchemaOptions
opts (Proxy3 s f Any -> String
forall k (s :: k) k1 (t :: k -> (k1 -> *) -> k1 -> *)
(f :: k1 -> *) (a :: k1).
Selector s =>
t s f a -> String
selName (forall k (p :: k). Proxy3 s f p
forall k k k (a :: k) (b :: k) (c :: k). Proxy3 a b c
Proxy3 :: Proxy3 s f p)))
instance {-# OVERLAPPING #-} (Selector s, ToSchema c) => GToSchema (S1 s (K1 i (Maybe c))) where
gdeclareNamedSchema :: SchemaOptions
-> Proxy (S1 s (K1 i (Maybe c)))
-> Schema
-> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts Proxy (S1 s (K1 i (Maybe c)))
_ = (Schema -> NamedSchema)
-> Declare (Definitions Schema) Schema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap Schema -> NamedSchema
unnamed (Declare (Definitions Schema) Schema
-> Declare (Definitions Schema) NamedSchema)
-> (Schema -> Declare (Definitions Schema) Schema)
-> Schema
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. SchemaOptions
-> Proxy2 s (K1 i (Maybe c))
-> Bool
-> Schema
-> Declare (Definitions Schema) Schema
forall k (proxy :: k -> (* -> *) -> *) (s :: k) (f :: * -> *).
(Selector s, GToSchema f) =>
SchemaOptions
-> proxy s f
-> Bool
-> Schema
-> Declare (Definitions Schema) Schema
withFieldSchema SchemaOptions
opts (forall k. Proxy2 s (K1 i (Maybe c))
forall k k (a :: k) (b :: k). Proxy2 a b
Proxy2 :: Proxy2 s (K1 i (Maybe c))) Bool
False
instance {-# OVERLAPPABLE #-} (Selector s, GToSchema f) => GToSchema (S1 s f) where
gdeclareNamedSchema :: SchemaOptions
-> Proxy (S1 s f)
-> Schema
-> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts Proxy (S1 s f)
_ = (Schema -> NamedSchema)
-> Declare (Definitions Schema) Schema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap Schema -> NamedSchema
unnamed (Declare (Definitions Schema) Schema
-> Declare (Definitions Schema) NamedSchema)
-> (Schema -> Declare (Definitions Schema) Schema)
-> Schema
-> Declare (Definitions Schema) NamedSchema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. SchemaOptions
-> Proxy2 s f
-> Bool
-> Schema
-> Declare (Definitions Schema) Schema
forall k (proxy :: k -> (* -> *) -> *) (s :: k) (f :: * -> *).
(Selector s, GToSchema f) =>
SchemaOptions
-> proxy s f
-> Bool
-> Schema
-> Declare (Definitions Schema) Schema
withFieldSchema SchemaOptions
opts (Proxy2 s f
forall k k (a :: k) (b :: k). Proxy2 a b
Proxy2 :: Proxy2 s f) Bool
True
instance {-# OVERLAPPING #-} ToSchema c => GToSchema (K1 i (Maybe c)) where
gdeclareNamedSchema :: SchemaOptions
-> Proxy (K1 i (Maybe c))
-> Schema
-> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
_ Proxy (K1 i (Maybe c))
_ Schema
_ = Proxy c -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy c
forall k (t :: k). Proxy t
Proxy :: Proxy c)
instance {-# OVERLAPPABLE #-} ToSchema c => GToSchema (K1 i c) where
gdeclareNamedSchema :: SchemaOptions
-> Proxy (K1 i c)
-> Schema
-> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
_ Proxy (K1 i c)
_ Schema
_ = Proxy c -> Declare (Definitions Schema) NamedSchema
forall a.
ToSchema a =>
Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema (Proxy c
forall k (t :: k). Proxy t
Proxy :: Proxy c)
instance ( GSumToSchema f
, GSumToSchema g
) => GToSchema (f :+: g)
where
gdeclareNamedSchema :: SchemaOptions
-> Proxy (f :+: g)
-> Schema
-> Declare (Definitions Schema) NamedSchema
gdeclareNamedSchema SchemaOptions
opts Proxy (f :+: g)
p Schema
s = SchemaOptions
-> Proxy (f :+: g)
-> Schema
-> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *).
GSumToSchema f =>
SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSumSchema (SchemaOptions
opts { unwrapUnaryRecords :: Bool
unwrapUnaryRecords = Bool
False } )Proxy (f :+: g)
p Schema
s
gdeclareNamedSumSchema :: GSumToSchema f => SchemaOptions -> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSumSchema :: SchemaOptions
-> Proxy f -> Schema -> Declare (Definitions Schema) NamedSchema
gdeclareNamedSumSchema SchemaOptions
opts Proxy f
proxy Schema
_
| SchemaOptions -> Bool
allNullaryToStringTag SchemaOptions
opts Bool -> Bool -> Bool
&& Bool
allNullary = NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a. Applicative f => a -> f a
pure (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema -> NamedSchema
unnamed ([(Text, Referenced Schema)] -> Schema
toStringTag [(Text, Referenced Schema)]
sumSchemas)
| Bool
otherwise = do
([(Text, Referenced Schema)]
schemas, All
_) <- WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
-> Declare (Definitions Schema) ([(Text, Referenced Schema)], All)
forall w (m :: * -> *) a. WriterT w m a -> m (a, w)
runWriterT WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
declareSumSchema
NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (m :: * -> *) a. Monad m => a -> m a
return (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema -> NamedSchema
unnamed (Schema -> NamedSchema) -> Schema -> NamedSchema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Referenced Schema] -> Identity (Maybe [Referenced Schema]))
-> Schema -> Identity Schema
forall s a. HasOneOf s a => Lens' s a
oneOf ((Maybe [Referenced Schema]
-> Identity (Maybe [Referenced Schema]))
-> Schema -> Identity Schema)
-> [Referenced Schema] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ ((Text, Referenced Schema) -> Referenced Schema
forall a b. (a, b) -> b
snd ((Text, Referenced Schema) -> Referenced Schema)
-> [(Text, Referenced Schema)] -> [Referenced Schema]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> [(Text, Referenced Schema)]
schemas)
where
declareSumSchema :: WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
declareSumSchema = SchemaOptions
-> Proxy f
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
forall (f :: * -> *).
GSumToSchema f =>
SchemaOptions
-> Proxy f
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
gsumToSchema SchemaOptions
opts Proxy f
proxy
([(Text, Referenced Schema)]
sumSchemas, All Bool
allNullary) = Declare (Definitions Schema) ([(Text, Referenced Schema)], All)
-> ([(Text, Referenced Schema)], All)
forall d a. Monoid d => Declare d a -> a
undeclare (WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
-> Declare (Definitions Schema) ([(Text, Referenced Schema)], All)
forall w (m :: * -> *) a. WriterT w m a -> m (a, w)
runWriterT WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
declareSumSchema)
toStringTag :: [(Text, Referenced Schema)] -> Schema
toStringTag [(Text, Referenced Schema)]
schemas = Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiString
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema
forall s a. HasEnum s a => Lens' s a
enum_ ((Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema)
-> [Value] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ ((Text, Referenced Schema) -> Value)
-> [(Text, Referenced Schema)] -> [Value]
forall a b. (a -> b) -> [a] -> [b]
map (Text -> Value
String (Text -> Value)
-> ((Text, Referenced Schema) -> Text)
-> (Text, Referenced Schema)
-> Value
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (Text, Referenced Schema) -> Text
forall a b. (a, b) -> a
fst) [(Text, Referenced Schema)]
sumSchemas
type AllNullary = All
class GSumToSchema (f :: * -> *) where
gsumToSchema :: SchemaOptions -> Proxy f -> WriterT AllNullary (Declare (Definitions Schema)) [(T.Text, Referenced Schema)]
instance (GSumToSchema f, GSumToSchema g) => GSumToSchema (f :+: g) where
gsumToSchema :: SchemaOptions
-> Proxy (f :+: g)
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
gsumToSchema SchemaOptions
opts Proxy (f :+: g)
_ =
[(Text, Referenced Schema)]
-> [(Text, Referenced Schema)] -> [(Text, Referenced Schema)]
forall a. Semigroup a => a -> a -> a
(<>) ([(Text, Referenced Schema)]
-> [(Text, Referenced Schema)] -> [(Text, Referenced Schema)])
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
-> WriterT
All
(Declare (Definitions Schema))
([(Text, Referenced Schema)] -> [(Text, Referenced Schema)])
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> SchemaOptions
-> Proxy f
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
forall (f :: * -> *).
GSumToSchema f =>
SchemaOptions
-> Proxy f
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
gsumToSchema SchemaOptions
opts (Proxy f
forall k (t :: k). Proxy t
Proxy :: Proxy f) WriterT
All
(Declare (Definitions Schema))
([(Text, Referenced Schema)] -> [(Text, Referenced Schema)])
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*> SchemaOptions
-> Proxy g
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
forall (f :: * -> *).
GSumToSchema f =>
SchemaOptions
-> Proxy f
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
gsumToSchema SchemaOptions
opts (Proxy g
forall k (t :: k). Proxy t
Proxy :: Proxy g)
gsumConToSchemaWith :: forall c f. (GToSchema (C1 c f), Constructor c) =>
Maybe (Referenced Schema) -> SchemaOptions -> Proxy (C1 c f) -> (T.Text, Referenced Schema)
gsumConToSchemaWith :: Maybe (Referenced Schema)
-> SchemaOptions -> Proxy (C1 c f) -> (Text, Referenced Schema)
gsumConToSchemaWith Maybe (Referenced Schema)
ref SchemaOptions
opts Proxy (C1 c f)
_ = (Text
tag, Referenced Schema
schema)
where
schema :: Referenced Schema
schema = case SchemaOptions -> SumEncoding
sumEncoding SchemaOptions
opts of
TaggedObject String
tagField String
contentsField ->
case Maybe (Referenced Schema)
ref of
Just (Inline Schema
sub) | Schema
sub Schema
-> Getting (Maybe OpenApiType) Schema (Maybe OpenApiType)
-> Maybe OpenApiType
forall s a. s -> Getting a s a -> a
^. Getting (Maybe OpenApiType) Schema (Maybe OpenApiType)
forall s a. HasType s a => Lens' s a
type_ Maybe OpenApiType -> Maybe OpenApiType -> Bool
forall a. Eq a => a -> a -> Bool
== OpenApiType -> Maybe OpenApiType
forall a. a -> Maybe a
Just OpenApiType
OpenApiObject Bool -> Bool -> Bool
&& Bool
isRecord -> Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema) -> Schema -> Referenced Schema
forall a b. (a -> b) -> a -> b
$ Schema
sub
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& ([Text] -> Identity [Text]) -> Schema -> Identity Schema
forall s a. HasRequired s a => Lens' s a
required (([Text] -> Identity [Text]) -> Schema -> Identity Schema)
-> [Text] -> Schema -> Schema
forall a s t. Semigroup a => ASetter s t a a -> a -> s -> t
<>~ [String -> Text
T.pack String
tagField]
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema
forall s a. HasProperties s a => Lens' s a
properties ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema)
-> ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> (Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema
-> Identity Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Index (InsOrdHashMap Text (Referenced Schema))
-> Lens'
(InsOrdHashMap Text (Referenced Schema))
(Maybe (IxValue (InsOrdHashMap Text (Referenced Schema))))
forall m. At m => Index m -> Lens' m (Maybe (IxValue m))
at (String -> Text
T.pack String
tagField) ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema -> Identity Schema)
-> Referenced Schema -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ (Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema) -> Schema -> Referenced Schema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiString Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema
forall s a. HasEnum s a => Lens' s a
enum_ ((Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema)
-> [Value] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Text -> Value
String Text
tag])
Maybe (Referenced Schema)
_ | Bool -> Bool
not Bool
isRecord -> Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema) -> Schema -> Referenced Schema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& ([Text] -> Identity [Text]) -> Schema -> Identity Schema
forall s a. HasRequired s a => Lens' s a
required (([Text] -> Identity [Text]) -> Schema -> Identity Schema)
-> [Text] -> Schema -> Schema
forall s t a b. ASetter s t a b -> b -> s -> t
.~ [String -> Text
T.pack String
tagField]
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema
forall s a. HasProperties s a => Lens' s a
properties ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema)
-> ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> (Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema
-> Identity Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Index (InsOrdHashMap Text (Referenced Schema))
-> Lens'
(InsOrdHashMap Text (Referenced Schema))
(Maybe (IxValue (InsOrdHashMap Text (Referenced Schema))))
forall m. At m => Index m -> Lens' m (Maybe (IxValue m))
at (String -> Text
T.pack String
tagField) ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema -> Identity Schema)
-> Referenced Schema -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ (Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema) -> Schema -> Referenced Schema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiString Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema
forall s a. HasEnum s a => Lens' s a
enum_ ((Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema)
-> [Value] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Text -> Value
String Text
tag])
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& case Maybe (Referenced Schema)
ref of
Just Referenced Schema
r -> ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema
forall s a. HasProperties s a => Lens' s a
properties ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema)
-> ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> (Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema
-> Identity Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Index (InsOrdHashMap Text (Referenced Schema))
-> Lens'
(InsOrdHashMap Text (Referenced Schema))
(Maybe (IxValue (InsOrdHashMap Text (Referenced Schema))))
forall m. At m => Index m -> Lens' m (Maybe (IxValue m))
at (String -> Text
T.pack String
contentsField) ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema -> Identity Schema)
-> Referenced Schema -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Referenced Schema
r) (Schema -> Schema) -> (Schema -> Schema) -> Schema -> Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (([Text] -> Identity [Text]) -> Schema -> Identity Schema
forall s a. HasRequired s a => Lens' s a
required (([Text] -> Identity [Text]) -> Schema -> Identity Schema)
-> [Text] -> Schema -> Schema
forall a s t. Semigroup a => ASetter s t a a -> a -> s -> t
<>~ [String -> Text
T.pack String
contentsField])
Maybe (Referenced Schema)
Nothing -> Schema -> Schema
forall a. a -> a
id
Maybe (Referenced Schema)
_ -> Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema) -> Schema -> Referenced Schema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Referenced Schema] -> Identity (Maybe [Referenced Schema]))
-> Schema -> Identity Schema
forall s a. HasAllOf s a => Lens' s a
allOf ((Maybe [Referenced Schema]
-> Identity (Maybe [Referenced Schema]))
-> Schema -> Identity Schema)
-> [Referenced Schema] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema) -> Schema -> Referenced Schema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& ([Text] -> Identity [Text]) -> Schema -> Identity Schema
forall s a. HasRequired s a => Lens' s a
required (([Text] -> Identity [Text]) -> Schema -> Identity Schema)
-> [Text] -> Schema -> Schema
forall s t a b. ASetter s t a b -> b -> s -> t
.~ (String -> Text
T.pack String
tagField Text -> [Text] -> [Text]
forall a. a -> [a] -> [a]
: if Bool
isRecord then [] else [String -> Text
T.pack String
contentsField])
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema
forall s a. HasProperties s a => Lens' s a
properties ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema)
-> ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> (Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema
-> Identity Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Index (InsOrdHashMap Text (Referenced Schema))
-> Lens'
(InsOrdHashMap Text (Referenced Schema))
(Maybe (IxValue (InsOrdHashMap Text (Referenced Schema))))
forall m. At m => Index m -> Lens' m (Maybe (IxValue m))
at (String -> Text
T.pack String
tagField) ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema -> Identity Schema)
-> Referenced Schema -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ (Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema) -> Schema -> Referenced Schema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiString Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema
forall s a. HasEnum s a => Lens' s a
enum_ ((Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema)
-> [Value] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Text -> Value
String Text
tag])]
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& if Bool
isRecord
then (Maybe [Referenced Schema] -> Identity (Maybe [Referenced Schema]))
-> Schema -> Identity Schema
forall s a. HasAllOf s a => Lens' s a
allOf ((Maybe [Referenced Schema]
-> Identity (Maybe [Referenced Schema]))
-> Schema -> Identity Schema)
-> (([Referenced Schema] -> Identity [Referenced Schema])
-> Maybe [Referenced Schema]
-> Identity (Maybe [Referenced Schema]))
-> ([Referenced Schema] -> Identity [Referenced Schema])
-> Schema
-> Identity Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ([Referenced Schema] -> Identity [Referenced Schema])
-> Maybe [Referenced Schema]
-> Identity (Maybe [Referenced Schema])
forall a b. Prism (Maybe a) (Maybe b) a b
_Just (([Referenced Schema] -> Identity [Referenced Schema])
-> Schema -> Identity Schema)
-> [Referenced Schema] -> Schema -> Schema
forall a s t. Semigroup a => ASetter s t a a -> a -> s -> t
<>~ [Item [Referenced Schema]
Referenced Schema
refOrNullary]
else (Maybe [Referenced Schema] -> Identity (Maybe [Referenced Schema]))
-> Schema -> Identity Schema
forall s a. HasAllOf s a => Lens' s a
allOf ((Maybe [Referenced Schema]
-> Identity (Maybe [Referenced Schema]))
-> Schema -> Identity Schema)
-> (([Referenced Schema] -> Identity [Referenced Schema])
-> Maybe [Referenced Schema]
-> Identity (Maybe [Referenced Schema]))
-> ([Referenced Schema] -> Identity [Referenced Schema])
-> Schema
-> Identity Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ([Referenced Schema] -> Identity [Referenced Schema])
-> Maybe [Referenced Schema]
-> Identity (Maybe [Referenced Schema])
forall a b. Prism (Maybe a) (Maybe b) a b
_Just (([Referenced Schema] -> Identity [Referenced Schema])
-> Schema -> Identity Schema)
-> [Referenced Schema] -> Schema -> Schema
forall a s t. Semigroup a => ASetter s t a a -> a -> s -> t
<>~ [Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema) -> Schema -> Referenced Schema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema
forall s a. HasProperties s a => Lens' s a
properties ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema)
-> ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> (Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema
-> Identity Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Index (InsOrdHashMap Text (Referenced Schema))
-> Lens'
(InsOrdHashMap Text (Referenced Schema))
(Maybe (IxValue (InsOrdHashMap Text (Referenced Schema))))
forall m. At m => Index m -> Lens' m (Maybe (IxValue m))
at (String -> Text
T.pack String
contentsField) ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema -> Identity Schema)
-> Referenced Schema -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Referenced Schema
refOrNullary]
SumEncoding
UntaggedValue -> Referenced Schema
refOrEnum
SumEncoding
ObjectWithSingleField -> Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema) -> Schema -> Referenced Schema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiObject
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& ([Text] -> Identity [Text]) -> Schema -> Identity Schema
forall s a. HasRequired s a => Lens' s a
required (([Text] -> Identity [Text]) -> Schema -> Identity Schema)
-> [Text] -> Schema -> Schema
forall s t a b. ASetter s t a b -> b -> s -> t
.~ [Text
Item [Text]
tag]
Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema
forall s a. HasProperties s a => Lens' s a
properties ((InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> Schema -> Identity Schema)
-> ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> InsOrdHashMap Text (Referenced Schema)
-> Identity (InsOrdHashMap Text (Referenced Schema)))
-> (Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema
-> Identity Schema
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Index (InsOrdHashMap Text (Referenced Schema))
-> Lens'
(InsOrdHashMap Text (Referenced Schema))
(Maybe (IxValue (InsOrdHashMap Text (Referenced Schema))))
forall m. At m => Index m -> Lens' m (Maybe (IxValue m))
at Text
Index (InsOrdHashMap Text (Referenced Schema))
tag ((Maybe (Referenced Schema)
-> Identity (Maybe (Referenced Schema)))
-> Schema -> Identity Schema)
-> Referenced Schema -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ Referenced Schema
refOrNullary
SumEncoding
TwoElemArray -> String -> Referenced Schema
forall a. HasCallStack => String -> a
error String
"unrepresentable in OpenAPI 3"
tag :: Text
tag = String -> Text
T.pack (SchemaOptions -> String -> String
constructorTagModifier SchemaOptions
opts (Proxy3 c f Any -> String
forall k (c :: k) k1 (t :: k -> (k1 -> *) -> k1 -> *)
(f :: k1 -> *) (a :: k1).
Constructor c =>
t c f a -> String
conName (forall k (p :: k). Proxy3 c f p
forall k k k (a :: k) (b :: k) (c :: k). Proxy3 a b c
Proxy3 :: Proxy3 c f p)))
isRecord :: Bool
isRecord = Proxy3 c f Any -> Bool
forall k (c :: k) k1 (t :: k -> (k1 -> *) -> k1 -> *)
(f :: k1 -> *) (a :: k1).
Constructor c =>
t c f a -> Bool
conIsRecord (forall k (p :: k). Proxy3 c f p
forall k k k (a :: k) (b :: k) (c :: k). Proxy3 a b c
Proxy3 :: Proxy3 c f p)
refOrNullary :: Referenced Schema
refOrNullary = Referenced Schema -> Maybe (Referenced Schema) -> Referenced Schema
forall a. a -> Maybe a -> a
fromMaybe (Schema -> Referenced Schema
forall a. a -> Referenced a
Inline Schema
nullarySchema) Maybe (Referenced Schema)
ref
refOrEnum :: Referenced Schema
refOrEnum = Referenced Schema -> Maybe (Referenced Schema) -> Referenced Schema
forall a. a -> Maybe a -> a
fromMaybe (Schema -> Referenced Schema
forall a. a -> Referenced a
Inline (Schema -> Referenced Schema) -> Schema -> Referenced Schema
forall a b. (a -> b) -> a -> b
$ Schema
forall a. Monoid a => a
mempty Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema
forall s a. HasType s a => Lens' s a
type_ ((Maybe OpenApiType -> Identity (Maybe OpenApiType))
-> Schema -> Identity Schema)
-> OpenApiType -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ OpenApiType
OpenApiString Schema -> (Schema -> Schema) -> Schema
forall a b. a -> (a -> b) -> b
& (Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema
forall s a. HasEnum s a => Lens' s a
enum_ ((Maybe [Value] -> Identity (Maybe [Value]))
-> Schema -> Identity Schema)
-> [Value] -> Schema -> Schema
forall s t a b. ASetter s t a (Maybe b) -> b -> s -> t
?~ [Text -> Value
String Text
tag]) Maybe (Referenced Schema)
ref
gsumConToSchema :: (GToSchema (C1 c f), Constructor c) =>
SchemaOptions -> Proxy (C1 c f) -> Declare (Definitions Schema) [(T.Text, Referenced Schema)]
gsumConToSchema :: SchemaOptions
-> Proxy (C1 c f)
-> Declare (Definitions Schema) [(Text, Referenced Schema)]
gsumConToSchema SchemaOptions
opts Proxy (C1 c f)
proxy = do
Referenced Schema
ref <- SchemaOptions
-> Proxy (C1 c f)
-> Declare (Definitions Schema) (Referenced Schema)
forall (a :: * -> *).
GToSchema a =>
SchemaOptions
-> Proxy a -> Declare (Definitions Schema) (Referenced Schema)
gdeclareSchemaRef SchemaOptions
opts Proxy (C1 c f)
proxy
[(Text, Referenced Schema)]
-> Declare (Definitions Schema) [(Text, Referenced Schema)]
forall (m :: * -> *) a. Monad m => a -> m a
return [Maybe (Referenced Schema)
-> SchemaOptions -> Proxy (C1 c f) -> (Text, Referenced Schema)
forall (c :: Meta) (f :: * -> *).
(GToSchema (C1 c f), Constructor c) =>
Maybe (Referenced Schema)
-> SchemaOptions -> Proxy (C1 c f) -> (Text, Referenced Schema)
gsumConToSchemaWith (Referenced Schema -> Maybe (Referenced Schema)
forall a. a -> Maybe a
Just Referenced Schema
ref) SchemaOptions
opts Proxy (C1 c f)
proxy]
instance {-# OVERLAPPABLE #-} (Constructor c, GToSchema f) => GSumToSchema (C1 c f) where
gsumToSchema :: SchemaOptions
-> Proxy (C1 c f)
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
gsumToSchema SchemaOptions
opts Proxy (C1 c f)
proxy = do
All -> WriterT All (Declare (Definitions Schema)) ()
forall w (m :: * -> *). MonadWriter w m => w -> m ()
tell (Bool -> All
All Bool
False)
Declare (Definitions Schema) [(Text, Referenced Schema)]
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (Declare (Definitions Schema) [(Text, Referenced Schema)]
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)])
-> Declare (Definitions Schema) [(Text, Referenced Schema)]
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
forall a b. (a -> b) -> a -> b
$ SchemaOptions
-> Proxy (C1 c f)
-> Declare (Definitions Schema) [(Text, Referenced Schema)]
forall (c :: Meta) (f :: * -> *).
(GToSchema (C1 c f), Constructor c) =>
SchemaOptions
-> Proxy (C1 c f)
-> Declare (Definitions Schema) [(Text, Referenced Schema)]
gsumConToSchema SchemaOptions
opts Proxy (C1 c f)
proxy
instance (Constructor c, Selector s, GToSchema f) => GSumToSchema (C1 c (S1 s f)) where
gsumToSchema :: SchemaOptions
-> Proxy (C1 c (S1 s f))
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
gsumToSchema SchemaOptions
opts Proxy (C1 c (S1 s f))
proxy = do
All -> WriterT All (Declare (Definitions Schema)) ()
forall w (m :: * -> *). MonadWriter w m => w -> m ()
tell (Bool -> All
All Bool
False)
Declare (Definitions Schema) [(Text, Referenced Schema)]
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (Declare (Definitions Schema) [(Text, Referenced Schema)]
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)])
-> Declare (Definitions Schema) [(Text, Referenced Schema)]
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
forall a b. (a -> b) -> a -> b
$ SchemaOptions
-> Proxy (C1 c (S1 s f))
-> Declare (Definitions Schema) [(Text, Referenced Schema)]
forall (c :: Meta) (f :: * -> *).
(GToSchema (C1 c f), Constructor c) =>
SchemaOptions
-> Proxy (C1 c f)
-> Declare (Definitions Schema) [(Text, Referenced Schema)]
gsumConToSchema SchemaOptions
opts Proxy (C1 c (S1 s f))
proxy
instance Constructor c => GSumToSchema (C1 c U1) where
gsumToSchema :: SchemaOptions
-> Proxy (C1 c U1)
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
gsumToSchema SchemaOptions
opts Proxy (C1 c U1)
proxy = [(Text, Referenced Schema)]
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
forall (f :: * -> *) a. Applicative f => a -> f a
pure ([(Text, Referenced Schema)]
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)])
-> [(Text, Referenced Schema)]
-> WriterT
All (Declare (Definitions Schema)) [(Text, Referenced Schema)]
forall a b. (a -> b) -> a -> b
$ ((Text, Referenced Schema)
-> [(Text, Referenced Schema)] -> [(Text, Referenced Schema)]
forall a. a -> [a] -> [a]
:[]) ((Text, Referenced Schema) -> [(Text, Referenced Schema)])
-> (Text, Referenced Schema) -> [(Text, Referenced Schema)]
forall a b. (a -> b) -> a -> b
$ Maybe (Referenced Schema)
-> SchemaOptions -> Proxy (C1 c U1) -> (Text, Referenced Schema)
forall (c :: Meta) (f :: * -> *).
(GToSchema (C1 c f), Constructor c) =>
Maybe (Referenced Schema)
-> SchemaOptions -> Proxy (C1 c f) -> (Text, Referenced Schema)
gsumConToSchemaWith Maybe (Referenced Schema)
forall a. Maybe a
Nothing SchemaOptions
opts Proxy (C1 c U1)
proxy
data Proxy2 a b = Proxy2
data Proxy3 a b c = Proxy3
class ToSchema1 (f :: * -> *) where
declareNamedSchema1 :: (Generic (f a), GToSchema (Rep (f a)), ToSchema a) => Proxy f -> Proxy a -> Declare (Definitions Schema) NamedSchema
default declareNamedSchema1 :: forall a. (ToSchema a, Generic (f a), GToSchema (Rep (f a))) => Proxy f -> Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema1 Proxy f
_ Proxy a
_ = SchemaOptions
-> Proxy (f a) -> Declare (Definitions Schema) NamedSchema
forall a.
(Generic a, GToSchema (Rep a)) =>
SchemaOptions
-> Proxy a -> Declare (Definitions Schema) NamedSchema
genericDeclareNamedSchema @(f a) SchemaOptions
defaultSchemaOptions Proxy (f a)
forall k (t :: k). Proxy t
Proxy
newtype BySchema1 f a = BySchema1 (f a)
instance (ToSchema1 f, Generic (f a), GToSchema (Rep (f a)), Typeable (f a), ToSchema a) => ToSchema (BySchema1 f a) where
declareNamedSchema :: Proxy (BySchema1 f a) -> Declare (Definitions Schema) NamedSchema
declareNamedSchema Proxy (BySchema1 f a)
_ = do
NamedSchema
sch <- Proxy f -> Proxy a -> Declare (Definitions Schema) NamedSchema
forall (f :: * -> *) a.
(ToSchema1 f, Generic (f a), GToSchema (Rep (f a)), ToSchema a) =>
Proxy f -> Proxy a -> Declare (Definitions Schema) NamedSchema
declareNamedSchema1 @f @a Proxy f
forall k (t :: k). Proxy t
Proxy Proxy a
forall k (t :: k). Proxy t
Proxy
let tName :: Text
tName = Text -> Text -> Text -> Text
T.replace Text
" " Text
"_" (Text -> Text) -> Text -> Text
forall a b. (a -> b) -> a -> b
$ String -> Text
T.pack (String -> Text) -> String -> Text
forall a b. (a -> b) -> a -> b
$ TypeRep (f a) -> String
forall a. Show a => a -> String
show (TypeRep (f a) -> String) -> TypeRep (f a) -> String
forall a b. (a -> b) -> a -> b
$ Typeable (f a) => TypeRep (f a)
forall k (a :: k). Typeable a => TypeRep a
typeRep @(f a)
NamedSchema -> Declare (Definitions Schema) NamedSchema
forall (m :: * -> *) a. Monad m => a -> m a
return (NamedSchema -> Declare (Definitions Schema) NamedSchema)
-> NamedSchema -> Declare (Definitions Schema) NamedSchema
forall a b. (a -> b) -> a -> b
$ Maybe Text -> NamedSchema -> NamedSchema
rename (Text -> Maybe Text
forall a. a -> Maybe a
Just Text
tName) NamedSchema
sch