Safe Haskell	None
Language	Haskell2010

Servant.Client.Core.Reexport

Contents

HasClient
Response (for Raw )
Data types
BaseUrl

Description

This module is a utility for servant-client-core backend writers. It contains all the functionality from servant-client-core that should be re-exported.

Synopsis

class RunClient m => HasClient m api where
- type Client (m :: * -> *) (api :: *) :: *
- clientWithRoute :: Proxy m -> Proxy api -> Request -> Client m api
- hoistClientMonad :: Proxy m -> Proxy api -> ( forall x. mon x -> mon' x) -> Client mon api -> Client mon' api
foldMapUnion :: forall c a (as :: [ Type ]). All c as => Proxy c -> ( forall x. c x => x -> a) -> Union as -> a
matchUnion :: forall a (as :: [ Type ]). IsMember a as => Union as -> Maybe a
data AsClientT (m :: * -> *)
(//) :: a -> (a -> b) -> b
(/:) :: (a -> b -> c) -> b -> a -> c
type Response = ResponseF ByteString
type StreamingResponse = ResponseF ( SourceIO ByteString )
data ResponseF a = Response {
- responseStatusCode :: Status
- responseHeaders :: Seq Header
- responseHttpVersion :: HttpVersion
- responseBody :: a
}
data ClientError
- = FailureResponse ( RequestF () ( BaseUrl , ByteString )) Response
- | DecodeFailure Text Response
- | UnsupportedContentType MediaType Response
- | InvalidContentTypeHeader Response
- | ConnectionError SomeException
data EmptyClient = EmptyClient
data BaseUrl = BaseUrl {
- baseUrlScheme :: Scheme
- baseUrlHost :: String
- baseUrlPort :: Int
- baseUrlPath :: String
}
data Scheme
- = Http
- | Https
showBaseUrl :: BaseUrl -> String
parseBaseUrl :: MonadThrow m => String -> m BaseUrl
data InvalidBaseUrlException

HasClient

class RunClient m => HasClient m api where Source #

This class lets us define how each API combinator influences the creation of an HTTP request.

Unless you are writing a new backend for servant-client-core or new combinators that you want to support client-generation, you can ignore this class.

Associated Types

type Client (m :: * -> *) (api :: *) :: * Source #

Methods

clientWithRoute :: Proxy m -> Proxy api -> Request -> Client m api Source #

hoistClientMonad :: Proxy m -> Proxy api -> ( forall x. mon x -> mon' x) -> Client mon api -> Client mon' api Source #

Instances

Instances details

( RunClient m, TypeError ( NoInstanceFor ( HasClient m api)) :: Constraint ) => HasClient m api Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m api Source # Methods clientWithRoute :: Proxy m -> Proxy api -> Request -> Client m api Source # hoistClientMonad :: Proxy m -> Proxy api -> ( forall x. mon x -> mon' x) -> Client mon api -> Client mon' api Source #
RunClient m => HasClient m Raw Source #	Pick a `Method` and specify where the server you want to query is. You get back the full `Response` .
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m Raw Source # Methods clientWithRoute :: Proxy m -> Proxy Raw -> Request -> Client m Raw Source # hoistClientMonad :: Proxy m -> Proxy Raw -> ( forall x. mon x -> mon' x) -> Client mon Raw -> Client mon' Raw Source #
RunClient m => HasClient m EmptyAPI Source #	The client for `EmptyAPI` is simply `EmptyClient` . type MyAPI = "books" :> Get '[JSON] [Book] -- GET /books :<\|> "nothing" :> EmptyAPI myApi :: Proxy MyApi myApi = Proxy getAllBooks :: ClientM [Book] (getAllBooks :<\|> EmptyClient) = client myApi
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m EmptyAPI Source # Methods clientWithRoute :: Proxy m -> Proxy EmptyAPI -> Request -> Client m EmptyAPI Source # hoistClientMonad :: Proxy m -> Proxy EmptyAPI -> ( forall x. mon x -> mon' x) -> Client mon EmptyAPI -> Client mon' EmptyAPI Source #
( forall (n :: Type -> Type ). GClient api n, HasClient m ( ToServantApi api), RunClient m) => HasClient m ( NamedRoutes api) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( NamedRoutes api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( NamedRoutes api) -> Request -> Client m ( NamedRoutes api) Source # hoistClientMonad :: Proxy m -> Proxy ( NamedRoutes api) -> ( forall x. mon x -> mon' x) -> Client mon ( NamedRoutes api) -> Client mon' ( NamedRoutes api) Source #
( RunClient m, ReflectMethod method) => HasClient m ( NoContentVerb method) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( NoContentVerb method) Source # Methods clientWithRoute :: Proxy m -> Proxy ( NoContentVerb method) -> Request -> Client m ( NoContentVerb method) Source # hoistClientMonad :: Proxy m -> Proxy ( NoContentVerb method) -> ( forall x. mon x -> mon' x) -> Client mon ( NoContentVerb method) -> Client mon' ( NoContentVerb method) Source #
( HasClient m a, HasClient m b) => HasClient m (a :<\|> b) Source #	A client querying function for `a :<\|> b` will actually hand you one function for querying `a` and another one for querying `b` , stitching them together with `:<\|>` , which really is just like a pair. type MyApi = "books" :> Get '[JSON] [Book] -- GET /books :<\|> "books" :> ReqBody '[JSON] Book :> Post Book -- POST /books myApi :: Proxy MyApi myApi = Proxy getAllBooks :: ClientM [Book] postNewBook :: Book -> ClientM Book (getAllBooks :<\|> postNewBook) = client myApi
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m (a :<\|> b) Source # Methods clientWithRoute :: Proxy m -> Proxy (a :<\|> b) -> Request -> Client m (a :<\|> b) Source # hoistClientMonad :: Proxy m -> Proxy (a :<\|> b) -> ( forall x. mon x -> mon' x) -> Client mon (a :<\|> b) -> Client mon' (a :<\|> b) Source #
( RunClient m, TypeError ( NoInstanceForSub ( HasClient m) ty) :: Constraint ) => HasClient m (ty :> sub) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m (ty :> sub) Source # Methods clientWithRoute :: Proxy m -> Proxy (ty :> sub) -> Request -> Client m (ty :> sub) Source # hoistClientMonad :: Proxy m -> Proxy (ty :> sub) -> ( forall x. mon x -> mon' x) -> Client mon (ty :> sub) -> Client mon' (ty :> sub) Source #
( RunClient m, TypeError ( PartialApplication HasClient arr) :: Constraint ) => HasClient m (arr :> sub) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m (arr :> sub) Source # Methods clientWithRoute :: Proxy m -> Proxy (arr :> sub) -> Request -> Client m (arr :> sub) Source # hoistClientMonad :: Proxy m -> Proxy (arr :> sub) -> ( forall x. mon x -> mon' x) -> Client mon (arr :> sub) -> Client mon' (arr :> sub) Source #
HasClient m api => HasClient m ( BasicAuth realm usr :> api) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( BasicAuth realm usr :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( BasicAuth realm usr :> api) -> Request -> Client m ( BasicAuth realm usr :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( BasicAuth realm usr :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( BasicAuth realm usr :> api) -> Client mon' ( BasicAuth realm usr :> api) Source #
( AtLeastOneFragment api, FragmentUnique ( Fragment a :> api), HasClient m api) => HasClient m ( Fragment a :> api) Source #	Ignore `Fragment` in client functions. See https://ietf.org/rfc/rfc2616.html#section-15.1.3 for more details. Example: type MyApi = "books" :> Fragment Text :> Get '[JSON] [Book] myApi :: Proxy MyApi myApi = Proxy getBooks :: ClientM [Book] getBooks = client myApi -- then you can just use "getBooksBy" to query that endpoint. -- 'getBooks' for all books.
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Fragment a :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Fragment a :> api) -> Request -> Client m ( Fragment a :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( Fragment a :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( Fragment a :> api) -> Client mon' ( Fragment a :> api) Source #
HasClient m api => HasClient m ( AuthProtect tag :> api) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( AuthProtect tag :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( AuthProtect tag :> api) -> Request -> Client m ( AuthProtect tag :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( AuthProtect tag :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( AuthProtect tag :> api) -> Client mon' ( AuthProtect tag :> api) Source #
HasClient m subapi => HasClient m ( WithNamedContext name context subapi) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( WithNamedContext name context subapi) Source # Methods clientWithRoute :: Proxy m -> Proxy ( WithNamedContext name context subapi) -> Request -> Client m ( WithNamedContext name context subapi) Source # hoistClientMonad :: Proxy m -> Proxy ( WithNamedContext name context subapi) -> ( forall x. mon x -> mon' x) -> Client mon ( WithNamedContext name context subapi) -> Client mon' ( WithNamedContext name context subapi) Source #
HasClient m api => HasClient m ( IsSecure :> api) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( IsSecure :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( IsSecure :> api) -> Request -> Client m ( IsSecure :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( IsSecure :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( IsSecure :> api) -> Client mon' ( IsSecure :> api) Source #
HasClient m api => HasClient m ( RemoteHost :> api) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( RemoteHost :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( RemoteHost :> api) -> Request -> Client m ( RemoteHost :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( RemoteHost :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( RemoteHost :> api) -> Client mon' ( RemoteHost :> api) Source #
HasClient m api => HasClient m ( Vault :> api) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Vault :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Vault :> api) -> Request -> Client m ( Vault :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( Vault :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( Vault :> api) -> Client mon' ( Vault :> api) Source #
( KnownSymbol path, HasClient m api) => HasClient m (path :> api) Source #	Make the querying function append `path` to the request path.
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m (path :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy (path :> api) -> Request -> Client m (path :> api) Source # hoistClientMonad :: Proxy m -> Proxy (path :> api) -> ( forall x. mon x -> mon' x) -> Client mon (path :> api) -> Client mon' (path :> api) Source #
( HasClient m api, MimeRender ctype chunk, FramingRender framing, ToSourceIO chunk a) => HasClient m ( StreamBody' mods framing ctype a :> api) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( StreamBody' mods framing ctype a :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( StreamBody' mods framing ctype a :> api) -> Request -> Client m ( StreamBody' mods framing ctype a :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( StreamBody' mods framing ctype a :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( StreamBody' mods framing ctype a :> api) -> Client mon' ( StreamBody' mods framing ctype a :> api) Source #
( MimeRender ct a, HasClient m api) => HasClient m ( ReqBody' mods (ct ': cts) a :> api) Source #	If you use a `ReqBody` in one of your endpoints in your API, the corresponding querying function will automatically take an additional argument of the type specified by your `ReqBody` . That function will take care of encoding this argument as JSON and of using it as the request body. All you need is for your type to have a `ToJSON` instance. Example: type MyApi = "books" :> ReqBody '[JSON] Book :> Post '[JSON] Book myApi :: Proxy MyApi myApi = Proxy addBook :: Book -> ClientM Book addBook = client myApi -- then you can just use "addBook" to query that endpoint
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( ReqBody' mods (ct ': cts) a :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( ReqBody' mods (ct ': cts) a :> api) -> Request -> Client m ( ReqBody' mods (ct ': cts) a :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( ReqBody' mods (ct ': cts) a :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( ReqBody' mods (ct ': cts) a :> api) -> Client mon' ( ReqBody' mods (ct ': cts) a :> api) Source #
( KnownSymbol sym, HasClient m api) => HasClient m ( QueryFlag sym :> api) Source #	If you use a `QueryFlag` in one of your endpoints in your API, the corresponding querying function will automatically take an additional `Bool` argument. If you give `False` , nothing will be added to the query string. Otherwise, this function will insert a value-less query string parameter under the name associated to your `QueryFlag` . Example: type MyApi = "books" :> QueryFlag "published" :> Get '[JSON] [Book] myApi :: Proxy MyApi myApi = Proxy getBooks :: Bool -> ClientM [Book] getBooks = client myApi -- then you can just use "getBooks" to query that endpoint. -- 'getBooksBy False' for all books -- 'getBooksBy True' to only get _already published_ books
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( QueryFlag sym :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( QueryFlag sym :> api) -> Request -> Client m ( QueryFlag sym :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( QueryFlag sym :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( QueryFlag sym :> api) -> Client mon' ( QueryFlag sym :> api) Source #
( KnownSymbol sym, ToHttpApiData a, HasClient m api) => HasClient m ( QueryParams sym a :> api) Source #	If you use a `QueryParams` in one of your endpoints in your API, the corresponding querying function will automatically take an additional argument, a list of values of the type specified by your `QueryParams` . If you give an empty list, nothing will be added to the query string. Otherwise, this function will take care of inserting a textual representation of your values in the query string, under the same query string parameter name. You can control how values for your type are turned into text by specifying a `ToHttpApiData` instance for your type. Example: type MyApi = "books" :> QueryParams "authors" Text :> Get '[JSON] [Book] myApi :: Proxy MyApi myApi = Proxy getBooksBy :: [Text] -> ClientM [Book] getBooksBy = client myApi -- then you can just use "getBooksBy" to query that endpoint. -- 'getBooksBy []' for all books -- 'getBooksBy ["Isaac Asimov", "Robert A. Heinlein"]' -- to get all books by Asimov and Heinlein
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( QueryParams sym a :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( QueryParams sym a :> api) -> Request -> Client m ( QueryParams sym a :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( QueryParams sym a :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( QueryParams sym a :> api) -> Client mon' ( QueryParams sym a :> api) Source #
( KnownSymbol sym, ToHttpApiData a, HasClient m api, SBoolI ( FoldRequired mods)) => HasClient m ( QueryParam' mods sym a :> api) Source #	If you use a `QueryParam` in one of your endpoints in your API, the corresponding querying function will automatically take an additional argument of the type specified by your `QueryParam` , enclosed in Maybe. If you give Nothing, nothing will be added to the query string. If you give a non- `Nothing` value, this function will take care of inserting a textual representation of this value in the query string. You can control how values for your type are turned into text by specifying a `ToHttpApiData` instance for your type. Example: type MyApi = "books" :> QueryParam "author" Text :> Get '[JSON] [Book] myApi :: Proxy MyApi myApi = Proxy getBooksBy :: Maybe Text -> ClientM [Book] getBooksBy = client myApi -- then you can just use "getBooksBy" to query that endpoint. -- 'getBooksBy Nothing' for all books -- 'getBooksBy (Just "Isaac Asimov")' to get all books by Isaac Asimov
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( QueryParam' mods sym a :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( QueryParam' mods sym a :> api) -> Request -> Client m ( QueryParam' mods sym a :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( QueryParam' mods sym a :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( QueryParam' mods sym a :> api) -> Client mon' ( QueryParam' mods sym a :> api) Source #
HasClient m api => HasClient m ( Description desc :> api) Source #	Ignore `Description` in client functions.
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Description desc :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Description desc :> api) -> Request -> Client m ( Description desc :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( Description desc :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( Description desc :> api) -> Client mon' ( Description desc :> api) Source #
HasClient m api => HasClient m ( Summary desc :> api) Source #	Ignore `Summary` in client functions.
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Summary desc :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Summary desc :> api) -> Request -> Client m ( Summary desc :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( Summary desc :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( Summary desc :> api) -> Client mon' ( Summary desc :> api) Source #
HasClient m api => HasClient m ( HttpVersion :> api) Source #	Using a `HttpVersion` combinator in your API doesn't affect the client functions.
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( HttpVersion :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( HttpVersion :> api) -> Request -> Client m ( HttpVersion :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( HttpVersion :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( HttpVersion :> api) -> Client mon' ( HttpVersion :> api) Source #
( KnownSymbol sym, ToHttpApiData a, HasClient m api, SBoolI ( FoldRequired mods)) => HasClient m ( Header' mods sym a :> api) Source #	If you use a `Header` in one of your endpoints in your API, the corresponding querying function will automatically take an additional argument of the type specified by your `Header` , wrapped in Maybe. That function will take care of encoding this argument as Text in the request headers. All you need is for your type to have a `ToHttpApiData` instance. Example: newtype Referer = Referer { referrer :: Text } deriving (Eq, Show, Generic, ToHttpApiData) -- GET /view-my-referer type MyApi = "view-my-referer" :> Header "Referer" Referer :> Get '[JSON] Referer myApi :: Proxy MyApi myApi = Proxy viewReferer :: Maybe Referer -> ClientM Book viewReferer = client myApi -- then you can just use "viewRefer" to query that endpoint -- specifying Nothing or e.g Just "http://haskell.org/" as arguments
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Header' mods sym a :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Header' mods sym a :> api) -> Request -> Client m ( Header' mods sym a :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( Header' mods sym a :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( Header' mods sym a :> api) -> Client mon' ( Header' mods sym a :> api) Source #
( RunClient m, contentTypes ~ (contentType ': otherContentTypes), as ~ (a ': as'), AllMime contentTypes, ReflectMethod method, All (UnrenderResponse contentTypes) as, All HasStatus as, HasStatuses as', Unique ( Statuses as)) => HasClient m ( UVerb method contentTypes as) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( UVerb method contentTypes as) Source # Methods clientWithRoute :: Proxy m -> Proxy ( UVerb method contentTypes as) -> Request -> Client m ( UVerb method contentTypes as) Source # hoistClientMonad :: Proxy m -> Proxy ( UVerb method contentTypes as) -> ( forall x. mon x -> mon' x) -> Client mon ( UVerb method contentTypes as) -> Client mon' ( UVerb method contentTypes as) Source #
( KnownSymbol capture, ToHttpApiData a, HasClient m sublayout) => HasClient m ( CaptureAll capture a :> sublayout) Source #	If you use a `CaptureAll` in one of your endpoints in your API, the corresponding querying function will automatically take an additional argument of a list of the type specified by your `CaptureAll` . That function will take care of inserting a textual representation of this value at the right place in the request path. You can control how these values are turned into text by specifying a `ToHttpApiData` instance of your type. Example: type MyAPI = "src" :> CaptureAll Text -> Get '[JSON] SourceFile myApi :: Proxy myApi = Proxy getSourceFile :: [Text] -> ClientM SourceFile getSourceFile = client myApi -- then you can use "getSourceFile" to query that endpoint
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( CaptureAll capture a :> sublayout) Source # Methods clientWithRoute :: Proxy m -> Proxy ( CaptureAll capture a :> sublayout) -> Request -> Client m ( CaptureAll capture a :> sublayout) Source # hoistClientMonad :: Proxy m -> Proxy ( CaptureAll capture a :> sublayout) -> ( forall x. mon x -> mon' x) -> Client mon ( CaptureAll capture a :> sublayout) -> Client mon' ( CaptureAll capture a :> sublayout) Source #
( KnownSymbol capture, ToHttpApiData a, HasClient m api) => HasClient m ( Capture' mods capture a :> api) Source #	If you use a `Capture` in one of your endpoints in your API, the corresponding querying function will automatically take an additional argument of the type specified by your `Capture` . That function will take care of inserting a textual representation of this value at the right place in the request path. You can control how values for this type are turned into text by specifying a `ToHttpApiData` instance for your type. Example: type MyApi = "books" :> Capture "isbn" Text :> Get '[JSON] Book myApi :: Proxy MyApi myApi = Proxy getBook :: Text -> ClientM Book getBook = client myApi -- then you can just use "getBook" to query that endpoint
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Capture' mods capture a :> api) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Capture' mods capture a :> api) -> Request -> Client m ( Capture' mods capture a :> api) Source # hoistClientMonad :: Proxy m -> Proxy ( Capture' mods capture a :> api) -> ( forall x. mon x -> mon' x) -> Client mon ( Capture' mods capture a :> api) -> Client mon' ( Capture' mods capture a :> api) Source #
( RunClient m, BuildHeadersTo ls, ReflectMethod method, KnownNat status) => HasClient m ( Verb method status cts ( Headers ls NoContent )) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Verb method status cts ( Headers ls NoContent )) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Verb method status cts ( Headers ls NoContent )) -> Request -> Client m ( Verb method status cts ( Headers ls NoContent )) Source # hoistClientMonad :: Proxy m -> Proxy ( Verb method status cts ( Headers ls NoContent )) -> ( forall x. mon x -> mon' x) -> Client mon ( Verb method status cts ( Headers ls NoContent )) -> Client mon' ( Verb method status cts ( Headers ls NoContent )) Source #
( RunClient m, MimeUnrender ct a, BuildHeadersTo ls, KnownNat status, ReflectMethod method, cts' ~ (ct ': cts)) => HasClient m ( Verb method status cts' ( Headers ls a)) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Verb method status cts' ( Headers ls a)) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Verb method status cts' ( Headers ls a)) -> Request -> Client m ( Verb method status cts' ( Headers ls a)) Source # hoistClientMonad :: Proxy m -> Proxy ( Verb method status cts' ( Headers ls a)) -> ( forall x. mon x -> mon' x) -> Client mon ( Verb method status cts' ( Headers ls a)) -> Client mon' ( Verb method status cts' ( Headers ls a)) Source #
( RunClient m, ReflectMethod method, KnownNat status) => HasClient m ( Verb method status cts NoContent ) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Verb method status cts NoContent ) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Verb method status cts NoContent ) -> Request -> Client m ( Verb method status cts NoContent ) Source # hoistClientMonad :: Proxy m -> Proxy ( Verb method status cts NoContent ) -> ( forall x. mon x -> mon' x) -> Client mon ( Verb method status cts NoContent ) -> Client mon' ( Verb method status cts NoContent ) Source #
( RunClient m, MimeUnrender ct a, ReflectMethod method, cts' ~ (ct ': cts), KnownNat status) => HasClient m ( Verb method status cts' a) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Verb method status cts' a) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Verb method status cts' a) -> Request -> Client m ( Verb method status cts' a) Source # hoistClientMonad :: Proxy m -> Proxy ( Verb method status cts' a) -> ( forall x. mon x -> mon' x) -> Client mon ( Verb method status cts' a) -> Client mon' ( Verb method status cts' a) Source #
( RunStreamingClient m, MimeUnrender ct chunk, ReflectMethod method, FramingUnrender framing, FromSourceIO chunk a, BuildHeadersTo hs) => HasClient m ( Stream method status framing ct ( Headers hs a)) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Stream method status framing ct ( Headers hs a)) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Stream method status framing ct ( Headers hs a)) -> Request -> Client m ( Stream method status framing ct ( Headers hs a)) Source # hoistClientMonad :: Proxy m -> Proxy ( Stream method status framing ct ( Headers hs a)) -> ( forall x. mon x -> mon' x) -> Client mon ( Stream method status framing ct ( Headers hs a)) -> Client mon' ( Stream method status framing ct ( Headers hs a)) Source #
( RunStreamingClient m, MimeUnrender ct chunk, ReflectMethod method, FramingUnrender framing, FromSourceIO chunk a) => HasClient m ( Stream method status framing ct a) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type Client m ( Stream method status framing ct a) Source # Methods clientWithRoute :: Proxy m -> Proxy ( Stream method status framing ct a) -> Request -> Client m ( Stream method status framing ct a) Source # hoistClientMonad :: Proxy m -> Proxy ( Stream method status framing ct a) -> ( forall x. mon x -> mon' x) -> Client mon ( Stream method status framing ct a) -> Client mon' ( Stream method status framing ct a) Source #

foldMapUnion :: forall c a (as :: [ Type ]). All c as => Proxy c -> ( forall x. c x => x -> a) -> Union as -> a Source #

Convenience function to apply a function to an unknown union element using a type class. All elements of the union must have instances in the type class, and the function is applied unconditionally.

Instances

Instances details

GenericMode ( AsClientT m) Source #
Instance details Defined in Servant.Client.Core.HasClient Associated Types type ( AsClientT m) :- api Source #
type ( AsClientT m) :- api Source #
Instance details Defined in Servant.Client.Core.HasClient type ( AsClientT m) :- api = Client m api

(//) :: a -> (a -> b) -> b infixl 1 Source #

Helper to make code using records of clients more readable.

Can be mixed with (/:) for supplying arguments.

Example:

@@ type Api = NamedRoutes RootApi

data RootApi mode = RootApi { subApi :: mode :- NamedRoutes SubApi , … } deriving Generic

data SubApi mode = SubApi { endpoint :: mode :- Get '[JSON] Person , … } deriving Generic

api :: Proxy API api = Proxy

rootClient :: RootApi (AsClientT ClientM) rootClient = client api

endpointClient :: ClientM Person endpointClient = client / subApi / endpoint @@

(/:) :: (a -> b -> c) -> b -> a -> c infixl 2 Source #

Convenience function for supplying arguments to client functions when working with records of clients.

Intended to be used in conjunction with (//) .

Example:

@@ type Api = NamedRoutes RootApi

data RootApi mode = RootApi { subApi :: mode :- Capture "token" String :> NamedRoutes SubApi , hello :: mode :- Capture "name" String :> Get '[JSON] String , … } deriving Generic

data SubApi mode = SubApi { endpoint :: mode :- Get '[JSON] Person , … } deriving Generic

api :: Proxy API api = Proxy

rootClient :: RootApi (AsClientT ClientM) rootClient = client api

hello :: String -> ClientM String hello name = rootClient / hello : name

endpointClient :: ClientM Person endpointClient = client / subApi : "foobar123" // endpoint @@

Response (for `Raw` )

type Response = ResponseF ByteString Source #

type StreamingResponse = ResponseF ( SourceIO ByteString ) Source #

data ResponseF a Source #

Constructors

Response
Fields responseStatusCode :: Status responseHeaders :: Seq Header responseHttpVersion :: HttpVersion responseBody :: a

Instances

Instances details

Functor ResponseF Source #
Instance details Defined in Servant.Client.Core.Response Methods fmap :: (a -> b) -> ResponseF a -> ResponseF b Source # (<$) :: a -> ResponseF b -> ResponseF a Source #
Foldable ResponseF Source #
Instance details Defined in Servant.Client.Core.Response Methods fold :: Monoid m => ResponseF m -> m Source # foldMap :: Monoid m => (a -> m) -> ResponseF a -> m Source # foldMap' :: Monoid m => (a -> m) -> ResponseF a -> m Source # foldr :: (a -> b -> b) -> b -> ResponseF a -> b Source # foldr' :: (a -> b -> b) -> b -> ResponseF a -> b Source # foldl :: (b -> a -> b) -> b -> ResponseF a -> b Source # foldl' :: (b -> a -> b) -> b -> ResponseF a -> b Source # foldr1 :: (a -> a -> a) -> ResponseF a -> a Source # foldl1 :: (a -> a -> a) -> ResponseF a -> a Source # toList :: ResponseF a -> [a] Source # null :: ResponseF a -> Bool Source # length :: ResponseF a -> Int Source # elem :: Eq a => a -> ResponseF a -> Bool Source # maximum :: Ord a => ResponseF a -> a Source # minimum :: Ord a => ResponseF a -> a Source # sum :: Num a => ResponseF a -> a Source # product :: Num a => ResponseF a -> a Source #
Traversable ResponseF Source #
Instance details Defined in Servant.Client.Core.Response Methods traverse :: Applicative f => (a -> f b) -> ResponseF a -> f ( ResponseF b) Source # sequenceA :: Applicative f => ResponseF (f a) -> f ( ResponseF a) Source # mapM :: Monad m => (a -> m b) -> ResponseF a -> m ( ResponseF b) Source # sequence :: Monad m => ResponseF (m a) -> m ( ResponseF a) Source #
Eq a => Eq ( ResponseF a) Source #
Instance details Defined in Servant.Client.Core.Response Methods (==) :: ResponseF a -> ResponseF a -> Bool Source # (/=) :: ResponseF a -> ResponseF a -> Bool Source #
Show a => Show ( ResponseF a) Source #
Instance details Defined in Servant.Client.Core.Response Methods showsPrec :: Int -> ResponseF a -> ShowS Source # show :: ResponseF a -> String Source # showList :: [ ResponseF a] -> ShowS Source #
Generic ( ResponseF a) Source #
Instance details Defined in Servant.Client.Core.Response Associated Types type Rep ( ResponseF a) :: Type -> Type Source # Methods from :: ResponseF a -> Rep ( ResponseF a) x Source # to :: Rep ( ResponseF a) x -> ResponseF a Source #
NFData a => NFData ( ResponseF a) Source #
Instance details Defined in Servant.Client.Core.Response Methods rnf :: ResponseF a -> () Source #
type Rep ( ResponseF a) Source #
Instance details Defined in Servant.Client.Core.Response type Rep ( ResponseF a) = D1 (' MetaData "ResponseF" "Servant.Client.Core.Response" "servant-client-core-0.19-DAS79QGMO4DL64AFO0JBqz" ' False ) ( C1 (' MetaCons "Response" ' PrefixI ' True ) (( S1 (' MetaSel (' Just "responseStatusCode") ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 Status ) :: S1 (' MetaSel (' Just "responseHeaders") ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 ( Seq Header ))) :: ( S1 (' MetaSel (' Just "responseHttpVersion") ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 HttpVersion ) :*: S1 (' MetaSel (' Just "responseBody") ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 a))))

Data types

data ClientError Source #

A type representing possible errors in a request

Note that this type substantially changed in 0.12.

Constructors

FailureResponse ( RequestF () ( BaseUrl , ByteString )) Response	The server returned an error response including the failing request. `requestPath` includes the `BaseUrl` and the path of the request.
DecodeFailure Text Response	The body could not be decoded at the expected type
UnsupportedContentType MediaType Response	The content-type of the response is not supported
InvalidContentTypeHeader Response	The content-type header is invalid
ConnectionError SomeException	There was a connection error, and no response was received

Instances

Instances details

Eq ClientError Source #
Instance details Defined in Servant.Client.Core.ClientError Methods (==) :: ClientError -> ClientError -> Bool Source # (/=) :: ClientError -> ClientError -> Bool Source #
Show ClientError Source #
Instance details Defined in Servant.Client.Core.ClientError Methods showsPrec :: Int -> ClientError -> ShowS Source # show :: ClientError -> String Source # showList :: [ ClientError ] -> ShowS Source #
Generic ClientError Source #
Instance details Defined in Servant.Client.Core.ClientError Associated Types type Rep ClientError :: Type -> Type Source # Methods from :: ClientError -> Rep ClientError x Source # to :: Rep ClientError x -> ClientError Source #
Exception ClientError Source #
Instance details Defined in Servant.Client.Core.ClientError Methods toException :: ClientError -> SomeException Source # fromException :: SomeException -> Maybe ClientError Source # displayException :: ClientError -> String Source #
NFData ClientError Source #	Note: an exception in `ConnectionError` might not be evaluated fully, We only `rnf` its `show` ed value.
Instance details Defined in Servant.Client.Core.ClientError Methods rnf :: ClientError -> () Source #
type Rep ClientError Source #
Instance details Defined in Servant.Client.Core.ClientError type Rep ClientError = D1 (' MetaData "ClientError" "Servant.Client.Core.ClientError" "servant-client-core-0.19-DAS79QGMO4DL64AFO0JBqz" ' False ) (( C1 (' MetaCons "FailureResponse" ' PrefixI ' False ) ( S1 (' MetaSel (' Nothing :: Maybe Symbol ) ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 ( RequestF () ( BaseUrl , ByteString ))) :: S1 (' MetaSel (' Nothing :: Maybe Symbol ) ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 Response )) :+: C1 (' MetaCons "DecodeFailure" ' PrefixI ' False ) ( S1 (' MetaSel (' Nothing :: Maybe Symbol ) ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 Text ) :: S1 (' MetaSel (' Nothing :: Maybe Symbol ) ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 Response ))) :+: ( C1 (' MetaCons "UnsupportedContentType" ' PrefixI ' False ) ( S1 (' MetaSel (' Nothing :: Maybe Symbol ) ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 MediaType ) :*: S1 (' MetaSel (' Nothing :: Maybe Symbol ) ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 Response )) :+: ( C1 (' MetaCons "InvalidContentTypeHeader" ' PrefixI ' False ) ( S1 (' MetaSel (' Nothing :: Maybe Symbol ) ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 Response )) :+: C1 (' MetaCons "ConnectionError" ' PrefixI ' False ) ( S1 (' MetaSel (' Nothing :: Maybe Symbol ) ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 SomeException )))))

data EmptyClient Source #

Singleton type representing a client for an empty API.

Constructors

EmptyClient

Instances

Instances details

Bounded EmptyClient Source #
Instance details Defined in Servant.Client.Core.HasClient Methods minBound :: EmptyClient Source # maxBound :: EmptyClient Source #
Enum EmptyClient Source #
Instance details Defined in Servant.Client.Core.HasClient Methods succ :: EmptyClient -> EmptyClient Source # pred :: EmptyClient -> EmptyClient Source # toEnum :: Int -> EmptyClient Source # fromEnum :: EmptyClient -> Int Source # enumFrom :: EmptyClient -> [ EmptyClient ] Source # enumFromThen :: EmptyClient -> EmptyClient -> [ EmptyClient ] Source # enumFromTo :: EmptyClient -> EmptyClient -> [ EmptyClient ] Source # enumFromThenTo :: EmptyClient -> EmptyClient -> EmptyClient -> [ EmptyClient ] Source #
Eq EmptyClient Source #
Instance details Defined in Servant.Client.Core.HasClient Methods (==) :: EmptyClient -> EmptyClient -> Bool Source # (/=) :: EmptyClient -> EmptyClient -> Bool Source #
Show EmptyClient Source #
Instance details Defined in Servant.Client.Core.HasClient Methods showsPrec :: Int -> EmptyClient -> ShowS Source # show :: EmptyClient -> String Source # showList :: [ EmptyClient ] -> ShowS Source #

BaseUrl

data BaseUrl Source #

Simple data type to represent the target of HTTP requests for servant's automatically-generated clients.

Constructors

BaseUrl
Fields baseUrlScheme :: Scheme URI scheme to use baseUrlHost :: String host (eg "haskell.org") baseUrlPort :: Int port (eg 80) baseUrlPath :: String path (eg " a b/c")

Instances

Instances details

Eq BaseUrl Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods (==) :: BaseUrl -> BaseUrl -> Bool Source # (/=) :: BaseUrl -> BaseUrl -> Bool Source #
Data BaseUrl Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods gfoldl :: ( forall d b. Data d => c (d -> b) -> d -> c b) -> ( forall g. g -> c g) -> BaseUrl -> c BaseUrl Source # gunfold :: ( forall b r. Data b => c (b -> r) -> c r) -> ( forall r. r -> c r) -> Constr -> c BaseUrl Source # toConstr :: BaseUrl -> Constr Source # dataTypeOf :: BaseUrl -> DataType Source # dataCast1 :: Typeable t => ( forall d. Data d => c (t d)) -> Maybe (c BaseUrl ) Source # dataCast2 :: Typeable t => ( forall d e. ( Data d, Data e) => c (t d e)) -> Maybe (c BaseUrl ) Source # gmapT :: ( forall b. Data b => b -> b) -> BaseUrl -> BaseUrl Source # gmapQl :: (r -> r' -> r) -> r -> ( forall d. Data d => d -> r') -> BaseUrl -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> ( forall d. Data d => d -> r') -> BaseUrl -> r Source # gmapQ :: ( forall d. Data d => d -> u) -> BaseUrl -> [u] Source # gmapQi :: Int -> ( forall d. Data d => d -> u) -> BaseUrl -> u Source # gmapM :: Monad m => ( forall d. Data d => d -> m d) -> BaseUrl -> m BaseUrl Source # gmapMp :: MonadPlus m => ( forall d. Data d => d -> m d) -> BaseUrl -> m BaseUrl Source # gmapMo :: MonadPlus m => ( forall d. Data d => d -> m d) -> BaseUrl -> m BaseUrl Source #
Ord BaseUrl Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods compare :: BaseUrl -> BaseUrl -> Ordering Source # (<) :: BaseUrl -> BaseUrl -> Bool Source # (<=) :: BaseUrl -> BaseUrl -> Bool Source # (>) :: BaseUrl -> BaseUrl -> Bool Source # (>=) :: BaseUrl -> BaseUrl -> Bool Source # max :: BaseUrl -> BaseUrl -> BaseUrl Source # min :: BaseUrl -> BaseUrl -> BaseUrl Source #
Show BaseUrl Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods showsPrec :: Int -> BaseUrl -> ShowS Source # show :: BaseUrl -> String Source # showList :: [ BaseUrl ] -> ShowS Source #
Generic BaseUrl Source #
Instance details Defined in Servant.Client.Core.BaseUrl Associated Types type Rep BaseUrl :: Type -> Type Source # Methods from :: BaseUrl -> Rep BaseUrl x Source # to :: Rep BaseUrl x -> BaseUrl Source #
ToJSON BaseUrl Source #	`>>>` `traverse_ (LBS8.putStrLn . encode) $ parseBaseUrl "api.example.com"`"http://api.example.com"
Instance details Defined in Servant.Client.Core.BaseUrl Methods toJSON :: BaseUrl -> Value Source # toEncoding :: BaseUrl -> Encoding Source # toJSONList :: [ BaseUrl ] -> Value Source # toEncodingList :: [ BaseUrl ] -> Encoding Source #
ToJSONKey BaseUrl Source #	`>>>` `:{`traverse_ (LBS8.putStrLn . encode) $ do u1 <- parseBaseUrl "api.example.com" u2 <- parseBaseUrl "example.com" return $ Map.fromList [(u1, 'x'), (u2, 'y')] :} {"http://api.example.com":"x","http://example.com":"y"}
Instance details Defined in Servant.Client.Core.BaseUrl Methods toJSONKey :: ToJSONKeyFunction BaseUrl Source # toJSONKeyList :: ToJSONKeyFunction [ BaseUrl ] Source #
FromJSON BaseUrl Source #	`>>>` `parseBaseUrl "api.example.com" >>= decode . encode :: Maybe BaseUrl`Just (BaseUrl {baseUrlScheme = Http, baseUrlHost = "api.example.com", baseUrlPort = 80, baseUrlPath = ""})
Instance details Defined in Servant.Client.Core.BaseUrl Methods parseJSON :: Value -> Parser BaseUrl Source # parseJSONList :: Value -> Parser [ BaseUrl ] Source #
FromJSONKey BaseUrl Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods fromJSONKey :: FromJSONKeyFunction BaseUrl Source # fromJSONKeyList :: FromJSONKeyFunction [ BaseUrl ] Source #
NFData BaseUrl Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods rnf :: BaseUrl -> () Source #
Lift BaseUrl Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods lift :: BaseUrl -> Q Exp Source # liftTyped :: BaseUrl -> Q ( TExp BaseUrl ) Source #
type Rep BaseUrl Source #
Instance details Defined in Servant.Client.Core.BaseUrl type Rep BaseUrl = D1 (' MetaData "BaseUrl" "Servant.Client.Core.BaseUrl" "servant-client-core-0.19-DAS79QGMO4DL64AFO0JBqz" ' False ) ( C1 (' MetaCons "BaseUrl" ' PrefixI ' True ) (( S1 (' MetaSel (' Just "baseUrlScheme") ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 Scheme ) :: S1 (' MetaSel (' Just "baseUrlHost") ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 String )) :: ( S1 (' MetaSel (' Just "baseUrlPort") ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 Int ) :*: S1 (' MetaSel (' Just "baseUrlPath") ' NoSourceUnpackedness ' NoSourceStrictness ' DecidedLazy ) ( Rec0 String ))))

data Scheme Source #

URI scheme to use

Constructors

Http	http://
Https	https://

Instances

Instances details

Eq Scheme Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods (==) :: Scheme -> Scheme -> Bool Source # (/=) :: Scheme -> Scheme -> Bool Source #
Data Scheme Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods gfoldl :: ( forall d b. Data d => c (d -> b) -> d -> c b) -> ( forall g. g -> c g) -> Scheme -> c Scheme Source # gunfold :: ( forall b r. Data b => c (b -> r) -> c r) -> ( forall r. r -> c r) -> Constr -> c Scheme Source # toConstr :: Scheme -> Constr Source # dataTypeOf :: Scheme -> DataType Source # dataCast1 :: Typeable t => ( forall d. Data d => c (t d)) -> Maybe (c Scheme ) Source # dataCast2 :: Typeable t => ( forall d e. ( Data d, Data e) => c (t d e)) -> Maybe (c Scheme ) Source # gmapT :: ( forall b. Data b => b -> b) -> Scheme -> Scheme Source # gmapQl :: (r -> r' -> r) -> r -> ( forall d. Data d => d -> r') -> Scheme -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> ( forall d. Data d => d -> r') -> Scheme -> r Source # gmapQ :: ( forall d. Data d => d -> u) -> Scheme -> [u] Source # gmapQi :: Int -> ( forall d. Data d => d -> u) -> Scheme -> u Source # gmapM :: Monad m => ( forall d. Data d => d -> m d) -> Scheme -> m Scheme Source # gmapMp :: MonadPlus m => ( forall d. Data d => d -> m d) -> Scheme -> m Scheme Source # gmapMo :: MonadPlus m => ( forall d. Data d => d -> m d) -> Scheme -> m Scheme Source #
Ord Scheme Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods compare :: Scheme -> Scheme -> Ordering Source # (<) :: Scheme -> Scheme -> Bool Source # (<=) :: Scheme -> Scheme -> Bool Source # (>) :: Scheme -> Scheme -> Bool Source # (>=) :: Scheme -> Scheme -> Bool Source # max :: Scheme -> Scheme -> Scheme Source # min :: Scheme -> Scheme -> Scheme Source #
Show Scheme Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods showsPrec :: Int -> Scheme -> ShowS Source # show :: Scheme -> String Source # showList :: [ Scheme ] -> ShowS Source #
Generic Scheme Source #
Instance details Defined in Servant.Client.Core.BaseUrl Associated Types type Rep Scheme :: Type -> Type Source # Methods from :: Scheme -> Rep Scheme x Source # to :: Rep Scheme x -> Scheme Source #
Lift Scheme Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods lift :: Scheme -> Q Exp Source # liftTyped :: Scheme -> Q ( TExp Scheme ) Source #
type Rep Scheme Source #
Instance details Defined in Servant.Client.Core.BaseUrl type Rep Scheme = D1 (' MetaData "Scheme" "Servant.Client.Core.BaseUrl" "servant-client-core-0.19-DAS79QGMO4DL64AFO0JBqz" ' False ) ( C1 (' MetaCons "Http" ' PrefixI ' False ) ( U1 :: Type -> Type ) :+: C1 (' MetaCons "Https" ' PrefixI ' False ) ( U1 :: Type -> Type ))

showBaseUrl :: BaseUrl -> String Source #

>>> showBaseUrl <$> parseBaseUrl "api.example.com"
"http://api.example.com"

parseBaseUrl :: MonadThrow m => String -> m BaseUrl Source #

>>> parseBaseUrl "api.example.com"
BaseUrl {baseUrlScheme = Http, baseUrlHost = "api.example.com", baseUrlPort = 80, baseUrlPath = ""}

Note: trailing slash is removed

>>> parseBaseUrl "api.example.com/"
BaseUrl {baseUrlScheme = Http, baseUrlHost = "api.example.com", baseUrlPort = 80, baseUrlPath = ""}

>>> parseBaseUrl "api.example.com/dir/"
BaseUrl {baseUrlScheme = Http, baseUrlHost = "api.example.com", baseUrlPort = 80, baseUrlPath = "/dir"}

data InvalidBaseUrlException Source #

Instances

Instances details

Show InvalidBaseUrlException Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods showsPrec :: Int -> InvalidBaseUrlException -> ShowS Source # show :: InvalidBaseUrlException -> String Source # showList :: [ InvalidBaseUrlException ] -> ShowS Source #
Exception InvalidBaseUrlException Source #
Instance details Defined in Servant.Client.Core.BaseUrl Methods toException :: InvalidBaseUrlException -> SomeException Source # fromException :: SomeException -> Maybe InvalidBaseUrlException Source # displayException :: InvalidBaseUrlException -> String Source #

HasClient

Instances

Instances

Response (for Raw )

Instances

Data types

Instances

Instances

BaseUrl

Instances

Instances

Instances

Response (for `Raw` )