{-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE CPP #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE FunctionalDependencies #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PolyKinds #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE TupleSections #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE UndecidableInstances #-} #if !MIN_VERSION_base(4,8,0) {-# LANGUAGE OverlappingInstances #-} #endif module Servant.Docs.Internal where #if !MIN_VERSION_base(4,8,0) import Control.Applicative #endif import Control.Lens import Data.ByteString.Lazy.Char8 (ByteString) import qualified Data.CaseInsensitive as CI import Data.Hashable import Data.HashMap.Strict (HashMap) import Data.List import Data.Maybe import Data.Monoid import Data.Ord (comparing) import Data.Proxy import Data.ByteString.Conversion (ToByteString, toByteString) import Data.String.Conversions import Data.Text (Text, pack, unpack) import GHC.Exts (Constraint) import GHC.Generics import GHC.TypeLits import Servant.API import Servant.API.ContentTypes import Servant.Utils.Links import qualified Data.HashMap.Strict as HM import qualified Data.Text as T import qualified Network.HTTP.Media as M import qualified Network.HTTP.Types as HTTP -- | Supported HTTP request methods data Method = DocDELETE -- ^ the DELETE method | DocGET -- ^ the GET method | DocPOST -- ^ the POST method | DocPUT -- ^ the PUT method deriving (Eq, Ord, Generic) instance Show Method where show DocGET = "GET" show DocPOST = "POST" show DocDELETE = "DELETE" show DocPUT = "PUT" instance Hashable Method -- | An 'Endpoint' type that holds the 'path' and the 'method'. -- -- Gets used as the key in the 'API' hashmap. Modify 'defEndpoint' -- or any 'Endpoint' value you want using the 'path' and 'method' -- lenses to tweak. -- -- @ -- λ> 'defEndpoint' -- GET / -- λ> 'defEndpoint' & 'path' '<>~' ["foo"] -- GET /foo -- λ> 'defEndpoint' & 'path' '<>~' ["foo"] & 'method' '.~' 'DocPOST' -- POST /foo -- @ data Endpoint = Endpoint { _path :: [String] -- type collected , _method :: Method -- type collected } deriving (Eq, Ord, Generic) instance Show Endpoint where show (Endpoint p m) = show m ++ " " ++ showPath p -- | -- Render a path as a '/'-delimited string -- showPath :: [String] -> String showPath [] = "/" showPath ps = concatMap ('/' :) ps -- | An 'Endpoint' whose path is `"/"` and whose method is 'DocGET' -- -- Here's how you can modify it: -- -- @ -- λ> 'defEndpoint' -- GET / -- λ> 'defEndpoint' & 'path' '<>~' ["foo"] -- GET /foo -- λ> 'defEndpoint' & 'path' '<>~' ["foo"] & 'method' '.~' 'DocPOST' -- POST /foo -- @ defEndpoint :: Endpoint defEndpoint = Endpoint [] DocGET instance Hashable Endpoint -- | Our API documentation type, a product of top-level information and a good -- old hashmap from 'Endpoint' to 'Action' data API = API { _apiIntros :: [DocIntro] , _apiEndpoints :: HashMap Endpoint Action } deriving (Eq, Show) instance Monoid API where API a1 b1 `mappend` API a2 b2 = API (a1 <> a2) (b1 <> b2) mempty = API mempty mempty -- | An empty 'API' emptyAPI :: API emptyAPI = mempty -- | A type to represent captures. Holds the name of the capture -- and a description. -- -- Write a 'ToCapture' instance for your captured types. data DocCapture = DocCapture { _capSymbol :: String -- type supplied , _capDesc :: String -- user supplied } deriving (Eq, Ord, Show) -- | A type to represent a /GET/ parameter from the Query String. Holds its name, -- the possible values (leave empty if there isn't a finite number of them), -- and a description of how it influences the output or behavior. -- -- Write a 'ToParam' instance for your GET parameter types data DocQueryParam = DocQueryParam { _paramName :: String -- type supplied , _paramValues :: [String] -- user supplied , _paramDesc :: String -- user supplied , _paramKind :: ParamKind } deriving (Eq, Ord, Show) -- | An introductory paragraph for your documentation. You can pass these to -- 'docsWithIntros'. data DocIntro = DocIntro { _introTitle :: String -- ^ Appears above the intro blob , _introBody :: [String] -- ^ Each String is a paragraph. } deriving (Eq, Show) instance Ord DocIntro where compare = comparing _introTitle -- | A type to represent extra notes that may be attached to an 'Action'. -- -- This is intended to be used when writing your own HasDocs instances to -- add extra sections to your endpoint's documentation. data DocNote = DocNote { _noteTitle :: String , _noteBody :: [String] } deriving (Eq, Ord, Show) -- | Type of extra information that a user may wish to "union" with their -- documentation. -- -- These are intended to be built using extraInfo. -- Multiple ExtraInfo may be combined with the monoid instance. newtype ExtraInfo layout = ExtraInfo (HashMap Endpoint Action) instance Monoid (ExtraInfo a) where mempty = ExtraInfo mempty ExtraInfo a `mappend` ExtraInfo b = ExtraInfo $ HM.unionWith combineAction a b -- | Type of GET parameter: -- -- - Normal corresponds to @QueryParam@, i.e your usual GET parameter -- - List corresponds to @QueryParams@, i.e GET parameters with multiple values -- - Flag corresponds to @QueryFlag@, i.e a value-less GET parameter data ParamKind = Normal | List | Flag deriving (Eq, Ord, Show) -- | A type to represent an HTTP response. Has an 'Int' status, a list of -- possible 'MediaType's, and a list of example 'ByteString' response bodies. -- Tweak 'defResponse' using the 'respStatus', 'respTypes' and 'respBody' -- lenses if you want. -- -- If you want to respond with a non-empty response body, you'll most likely -- want to write a 'ToSample' instance for the type that'll be represented -- as encoded data in the response. -- -- Can be tweaked with three lenses. -- -- > λ> defResponse -- > Response {_respStatus = 200, _respTypes = [], _respBody = []} -- > λ> defResponse & respStatus .~ 204 & respBody .~ [("If everything goes well", "{ \"status\": \"ok\" }")] -- > Response {_respStatus = 204, _respTypes = [], _respBody = [("If everything goes well", "{ \"status\": \"ok\" }")]} data Response = Response { _respStatus :: Int , _respTypes :: [M.MediaType] , _respBody :: [(Text, M.MediaType, ByteString)] , _respHeaders :: [HTTP.Header] } deriving (Eq, Ord, Show) -- | Default response: status code 200, no response body. -- -- Can be tweaked with two lenses. -- -- > λ> defResponse -- > Response {_respStatus = 200, _respBody = Nothing} -- > λ> defResponse & respStatus .~ 204 & respBody .~ Just "[]" -- > Response {_respStatus = 204, _respBody = Just "[]"} defResponse :: Response defResponse = Response { _respStatus = 200 , _respTypes = [] , _respBody = [] , _respHeaders = [] } -- | A datatype that represents everything that can happen -- at an endpoint, with its lenses: -- -- - List of captures ('captures') -- - List of GET parameters ('params') -- - What the request body should look like, if any is requested ('rqbody') -- - What the response should be if everything goes well ('response') -- -- You can tweak an 'Action' (like the default 'defAction') with these lenses -- to transform an action and add some information to it. data Action = Action { _captures :: [DocCapture] -- type collected + user supplied info , _headers :: [Text] -- type collected , _params :: [DocQueryParam] -- type collected + user supplied info , _notes :: [DocNote] -- user supplied , _mxParams :: [(String, [DocQueryParam])] -- type collected + user supplied info , _rqtypes :: [M.MediaType] -- type collected , _rqbody :: [(M.MediaType, ByteString)] -- user supplied , _response :: Response -- user supplied } deriving (Eq, Ord, Show) -- | Combine two Actions, we can't make a monoid as merging Response breaks the -- laws. -- -- As such, we invent a non-commutative, left associative operation -- 'combineAction' to mush two together taking the response, body and content -- types from the very left. combineAction :: Action -> Action -> Action Action c h p n m ts body resp `combineAction` Action c' h' p' n' m' _ _ _ = Action (c <> c') (h <> h') (p <> p') (n <> n') (m <> m') ts body resp -- Default 'Action'. Has no 'captures', no GET 'params', expects -- no request body ('rqbody') and the typical response is 'defResponse'. -- -- Tweakable with lenses. -- -- > λ> defAction -- > Action {_captures = [], _headers = [], _params = [], _mxParams = [], _rqbody = Nothing, _response = Response {_respStatus = 200, _respBody = Nothing}} -- > λ> defAction & response.respStatus .~ 201 -- > Action {_captures = [], _headers = [], _params = [], _mxParams = [], _rqbody = Nothing, _response = Response {_respStatus = 201, _respBody = Nothing}} defAction :: Action defAction = Action [] [] [] [] [] [] [] defResponse -- | Create an API that's comprised of a single endpoint. -- 'API' is a 'Monoid', so combine multiple endpoints with -- 'mappend' or '<>'. single :: Endpoint -> Action -> API single e a = API mempty (HM.singleton e a) -- gimme some lenses makeLenses ''API makeLenses ''Endpoint makeLenses ''DocCapture makeLenses ''DocQueryParam makeLenses ''DocIntro makeLenses ''DocNote makeLenses ''Response makeLenses ''Action -- | Generate the docs for a given API that implements 'HasDocs'. This is the -- default way to create documentation. docs :: HasDocs layout => Proxy layout -> API docs p = docsFor p (defEndpoint, defAction) -- | Closed type family, check if endpoint is exactly within API. -- We aren't sure what affects how an Endpoint is built up, so we require an -- exact match. type family IsIn (endpoint :: *) (api :: *) :: Constraint where IsIn e (sa :<|> sb) = Or (IsIn e sa) (IsIn e sb) IsIn (e :> sa) (e :> sb) = IsIn sa sb IsIn e e = () -- | Create an 'ExtraInfo' that is garunteed to be within the given API layout. -- -- The safety here is to ensure that you only add custom documentation to an -- endpoint that actually exists within your API. -- -- > extra :: ExtraInfo TestApi -- > extra = -- > extraInfo (Proxy :: Proxy ("greet" :> Capture "greetid" Text :> Delete)) $ -- > defAction & headers <>~ ["unicorns"] -- > & notes <>~ [ DocNote "Title" ["This is some text"] -- > , DocNote "Second secton" ["And some more"] -- > ] extraInfo :: (IsIn endpoint layout, HasLink endpoint, HasDocs endpoint) => Proxy endpoint -> Action -> ExtraInfo layout extraInfo p action = let api = docsFor p (defEndpoint, defAction) -- Assume one endpoint, HasLink constraint means that we should only ever -- point at one endpoint. in ExtraInfo $ api ^. apiEndpoints & traversed .~ action -- | Generate documentation given some extra introductions (in the form of -- 'DocInfo') and some extra endpoint documentation (in the form of -- 'ExtraInfo'. -- -- The extra introductions will be prepended to the top of the documentation, -- before the specific endpoint documentation. The extra endpoint documentation -- will be "unioned" with the automatically generated endpoint documentation. -- -- You are expected to build up the ExtraInfo with the Monoid instance and -- 'extraInfo'. -- -- If you only want to add an introduction, use 'docsWithIntros'. docsWith :: HasDocs layout => [DocIntro] -> ExtraInfo layout -> Proxy layout -> API docsWith intros (ExtraInfo endpoints) p = docs p & apiIntros <>~ intros & apiEndpoints %~ HM.unionWith (flip combineAction) endpoints -- | Generate the docs for a given API that implements 'HasDocs' with with any -- number of introduction(s) docsWithIntros :: HasDocs layout => [DocIntro] -> Proxy layout -> API docsWithIntros intros = docsWith intros mempty -- | The class that abstracts away the impact of API combinators -- on documentation generation. class HasDocs layout where docsFor :: Proxy layout -> (Endpoint, Action) -> API -- | The class that lets us display a sample input or output in the supported -- content-types when generating documentation for endpoints that either: -- -- - expect a request body, or -- - return a non empty response body -- -- Example of an instance: -- -- > {-# LANGUAGE DeriveGeneric #-} -- > {-# LANGUAGE OverloadedStrings #-} -- > -- > import Data.Aeson -- > import Data.Text -- > import GHC.Generics -- > -- > data Greet = Greet { _msg :: Text } -- > deriving (Generic, Show) -- > -- > instance FromJSON Greet -- > instance ToJSON Greet -- > -- > instance ToSample Greet Greet where -- > toSample _ = Just g -- > -- > where g = Greet "Hello, haskeller!" -- -- You can also instantiate this class using 'toSamples' instead of -- 'toSample': it lets you specify different responses along with -- some context (as 'Text') that explains when you're supposed to -- get the corresponding response. class ToSample a b | a -> b where {-# MINIMAL (toSample | toSamples) #-} toSample :: Proxy a -> Maybe b toSample _ = snd <$> listToMaybe samples where samples = toSamples (Proxy :: Proxy a) toSamples :: Proxy a -> [(Text, b)] toSamples _ = maybe [] (return . ("",)) s where s = toSample (Proxy :: Proxy a) instance ToSample a b => ToSample (Headers ls a) b where toSample _ = toSample (Proxy :: Proxy a) toSamples _ = toSamples (Proxy :: Proxy a) class AllHeaderSamples ls where allHeaderToSample :: Proxy ls -> [HTTP.Header] instance AllHeaderSamples '[] where allHeaderToSample _ = [] instance (ToByteString l, AllHeaderSamples ls, ToSample l l, KnownSymbol h) => AllHeaderSamples (Header h l ': ls) where allHeaderToSample _ = (mkHeader (toSample (Proxy :: Proxy l))) : allHeaderToSample (Proxy :: Proxy ls) where headerName = CI.mk . cs $ symbolVal (Proxy :: Proxy h) mkHeader (Just x) = (headerName, cs $ toByteString x) mkHeader Nothing = (headerName, "") -- | Synthesise a sample value of a type, encoded in the specified media types. sampleByteString :: forall ctypes a b. (ToSample a b, IsNonEmpty ctypes, AllMimeRender ctypes b) => Proxy ctypes -> Proxy a -> [(M.MediaType, ByteString)] sampleByteString ctypes@Proxy Proxy = maybe [] (allMimeRender ctypes) $ toSample (Proxy :: Proxy a) -- | Synthesise a list of sample values of a particular type, encoded in the -- specified media types. sampleByteStrings :: forall ctypes a b. (ToSample a b, IsNonEmpty ctypes, AllMimeRender ctypes b) => Proxy ctypes -> Proxy a -> [(Text, M.MediaType, ByteString)] sampleByteStrings ctypes@Proxy Proxy = let samples = toSamples (Proxy :: Proxy a) enc (t, s) = uncurry (t,,) <$> allMimeRender ctypes s in concatMap enc samples -- | Generate a list of 'MediaType' values describing the content types -- accepted by an API component. class SupportedTypes (list :: [*]) where supportedTypes :: Proxy list -> [M.MediaType] instance SupportedTypes '[] where supportedTypes Proxy = [] instance (Accept ctype, SupportedTypes rest) => SupportedTypes (ctype ': rest) where supportedTypes Proxy = contentType (Proxy :: Proxy ctype) : supportedTypes (Proxy :: Proxy rest) -- | The class that helps us automatically get documentation -- for GET parameters. -- -- Example of an instance: -- -- > instance ToParam (QueryParam "capital" Bool) where -- > toParam _ = -- > DocQueryParam "capital" -- > ["true", "false"] -- > "Get the greeting message in uppercase (true) or not (false). Default is false." class ToParam t where toParam :: Proxy t -> DocQueryParam -- | The class that helps us automatically get documentation -- for URL captures. -- -- Example of an instance: -- -- > instance ToCapture (Capture "name" Text) where -- > toCapture _ = DocCapture "name" "name of the person to greet" class ToCapture c where toCapture :: Proxy c -> DocCapture -- | Generate documentation in Markdown format for -- the given 'API'. markdown :: API -> String markdown api = unlines $ introsStr (api ^. apiIntros) ++ (concatMap (uncurry printEndpoint) . sort . HM.toList $ api ^. apiEndpoints) where printEndpoint :: Endpoint -> Action -> [String] printEndpoint endpoint action = str : "" : notesStr (action ^. notes) ++ capturesStr (action ^. captures) ++ mxParamsStr (action ^. mxParams) ++ headersStr (action ^. headers) ++ paramsStr (action ^. params) ++ rqbodyStr (action ^. rqtypes) (action ^. rqbody) ++ responseStr (action ^. response) ++ [] where str = "## " ++ show (endpoint^.method) ++ " " ++ showPath (endpoint^.path) introsStr :: [DocIntro] -> [String] introsStr = concatMap introStr introStr :: DocIntro -> [String] introStr i = ("## " ++ i ^. introTitle) : "" : intersperse "" (i ^. introBody) ++ "" : [] notesStr :: [DocNote] -> [String] notesStr = concatMap noteStr noteStr :: DocNote -> [String] noteStr nt = ("#### " ++ nt ^. noteTitle) : "" : intersperse "" (nt ^. noteBody) ++ "" : [] capturesStr :: [DocCapture] -> [String] capturesStr [] = [] capturesStr l = "#### Captures:" : "" : map captureStr l ++ "" : [] captureStr cap = "- *" ++ (cap ^. capSymbol) ++ "*: " ++ (cap ^. capDesc) mxParamsStr :: [(String, [DocQueryParam])] -> [String] mxParamsStr [] = [] mxParamsStr l = "#### Matrix Parameters:" : "" : map segmentStr l segmentStr :: (String, [DocQueryParam]) -> String segmentStr (segment, l) = unlines $ ("**" ++ segment ++ "**:") : "" : map paramStr l ++ "" : [] headersStr :: [Text] -> [String] headersStr [] = [] headersStr l = [""] ++ map headerStr l ++ [""] where headerStr hname = "- This endpoint is sensitive to the value of the **" ++ unpack hname ++ "** HTTP header." paramsStr :: [DocQueryParam] -> [String] paramsStr [] = [] paramsStr l = "#### GET Parameters:" : "" : map paramStr l ++ "" : [] paramStr param = unlines $ ("- " ++ param ^. paramName) : (if (not (null values) || param ^. paramKind /= Flag) then [" - **Values**: *" ++ intercalate ", " values ++ "*"] else []) ++ (" - **Description**: " ++ param ^. paramDesc) : (if (param ^. paramKind == List) then [" - This parameter is a **list**. All GET parameters with the name " ++ param ^. paramName ++ "[] will forward their values in a list to the handler."] else []) ++ (if (param ^. paramKind == Flag) then [" - This parameter is a **flag**. This means no value is expected to be associated to this parameter."] else []) ++ [] where values = param ^. paramValues rqbodyStr :: [M.MediaType] -> [(M.MediaType, ByteString)]-> [String] rqbodyStr [] [] = [] rqbodyStr types samples = ["#### Request:", ""] <> formatTypes types <> concatMap formatBody samples formatTypes [] = [] formatTypes ts = ["- Supported content types are:", ""] <> map (\t -> " - `" <> show t <> "`") ts <> [""] formatBody (m, b) = "- Example: `" <> cs (show m) <> "`" : contentStr m b markdownForType mime_type = case (M.mainType mime_type, M.subType mime_type) of ("text", "html") -> "html" ("application", "xml") -> "xml" ("application", "json") -> "javascript" ("application", "javascript") -> "javascript" ("text", "css") -> "css" (_, _) -> "" contentStr mime_type body = "" : "```" <> markdownForType mime_type : cs body : "```" : "" : [] responseStr :: Response -> [String] responseStr resp = "#### Response:" : "" : ("- Status code " ++ show (resp ^. respStatus)) : ("- Headers: " ++ show (resp ^. respHeaders)) : "" : formatTypes (resp ^. respTypes) ++ bodies where bodies = case resp ^. respBody of [] -> ["- No response body\n"] [("", t, r)] -> "- Response body as below." : contentStr t r xs -> concatMap (\(ctx, t, r) -> ("- " <> T.unpack ctx) : contentStr t r) xs -- * Instances -- | The generated docs for @a ':<|>' b@ just appends the docs -- for @a@ with the docs for @b@. instance (HasDocs layout1, HasDocs layout2) => HasDocs (layout1 :<|> layout2) where docsFor Proxy (ep, action) = docsFor p1 (ep, action) <> docsFor p2 (ep, action) where p1 :: Proxy layout1 p1 = Proxy p2 :: Proxy layout2 p2 = Proxy -- | @"books" :> 'Capture' "isbn" Text@ will appear as -- @/books/:isbn@ in the docs. instance (KnownSymbol sym, ToCapture (Capture sym a), HasDocs sublayout) => HasDocs (Capture sym a :> sublayout) where docsFor Proxy (endpoint, action) = docsFor sublayoutP (endpoint', action') where sublayoutP = Proxy :: Proxy sublayout captureP = Proxy :: Proxy (Capture sym a) action' = over captures (|> toCapture captureP) action endpoint' = over path (\p -> p ++ [":" ++ symbolVal symP]) endpoint symP = Proxy :: Proxy sym instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPABLe #-} #endif (ToSample a b, IsNonEmpty cts, AllMimeRender cts b, SupportedTypes cts) => HasDocs (Delete cts a) where docsFor Proxy (endpoint, action) = single endpoint' action' where endpoint' = endpoint & method .~ DocDELETE action' = action & response.respBody .~ sampleByteStrings t p & response.respTypes .~ supportedTypes t t = Proxy :: Proxy cts p = Proxy :: Proxy a instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif (ToSample a b, IsNonEmpty cts, AllMimeRender cts b, SupportedTypes cts , AllHeaderSamples ls , GetHeaders (HList ls) ) => HasDocs (Delete cts (Headers ls a)) where docsFor Proxy (endpoint, action) = single endpoint' action' where hdrs = allHeaderToSample (Proxy :: Proxy ls) endpoint' = endpoint & method .~ DocDELETE action' = action & response.respBody .~ sampleByteStrings t p & response.respTypes .~ supportedTypes t & response.respHeaders .~ hdrs t = Proxy :: Proxy cts p = Proxy :: Proxy a instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPABLe #-} #endif (ToSample a b, IsNonEmpty cts, AllMimeRender cts b, SupportedTypes cts) => HasDocs (Get cts a) where docsFor Proxy (endpoint, action) = single endpoint' action' where endpoint' = endpoint & method .~ DocGET action' = action & response.respBody .~ sampleByteStrings t p & response.respTypes .~ supportedTypes t t = Proxy :: Proxy cts p = Proxy :: Proxy a instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif (ToSample a b, IsNonEmpty cts, AllMimeRender cts b, SupportedTypes cts , AllHeaderSamples ls , GetHeaders (HList ls) ) => HasDocs (Get cts (Headers ls a)) where docsFor Proxy (endpoint, action) = single endpoint' action' where hdrs = allHeaderToSample (Proxy :: Proxy ls) endpoint' = endpoint & method .~ DocGET action' = action & response.respBody .~ sampleByteStrings t p & response.respTypes .~ supportedTypes t & response.respHeaders .~ hdrs t = Proxy :: Proxy cts p = Proxy :: Proxy a instance (KnownSymbol sym, HasDocs sublayout) => HasDocs (Header sym a :> sublayout) where docsFor Proxy (endpoint, action) = docsFor sublayoutP (endpoint, action') where sublayoutP = Proxy :: Proxy sublayout action' = over headers (|> headername) action headername = pack $ symbolVal (Proxy :: Proxy sym) instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPABLE #-} #endif (ToSample a b, IsNonEmpty cts, AllMimeRender cts b, SupportedTypes cts) => HasDocs (Post cts a) where docsFor Proxy (endpoint, action) = single endpoint' action' where endpoint' = endpoint & method .~ DocPOST action' = action & response.respBody .~ sampleByteStrings t p & response.respTypes .~ supportedTypes t & response.respStatus .~ 201 t = Proxy :: Proxy cts p = Proxy :: Proxy a instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif (ToSample a b, IsNonEmpty cts, AllMimeRender cts b, SupportedTypes cts , AllHeaderSamples ls , GetHeaders (HList ls) ) => HasDocs (Post cts (Headers ls a)) where docsFor Proxy (endpoint, action) = single endpoint' action' where hdrs = allHeaderToSample (Proxy :: Proxy ls) endpoint' = endpoint & method .~ DocPOST action' = action & response.respBody .~ sampleByteStrings t p & response.respTypes .~ supportedTypes t & response.respStatus .~ 201 & response.respHeaders .~ hdrs t = Proxy :: Proxy cts p = Proxy :: Proxy a instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPABLE #-} #endif (ToSample a b, IsNonEmpty cts, AllMimeRender cts b, SupportedTypes cts) => HasDocs (Put cts a) where docsFor Proxy (endpoint, action) = single endpoint' action' where endpoint' = endpoint & method .~ DocPUT action' = action & response.respBody .~ sampleByteStrings t p & response.respTypes .~ supportedTypes t & response.respStatus .~ 200 t = Proxy :: Proxy cts p = Proxy :: Proxy a instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPING #-} #endif (ToSample a b, IsNonEmpty cts, AllMimeRender cts b, SupportedTypes cts , AllHeaderSamples ls , GetHeaders (HList ls) ) => HasDocs (Put cts (Headers ls a)) where docsFor Proxy (endpoint, action) = single endpoint' action' where hdrs = allHeaderToSample (Proxy :: Proxy ls) endpoint' = endpoint & method .~ DocPUT action' = action & response.respBody .~ sampleByteStrings t p & response.respTypes .~ supportedTypes t & response.respStatus .~ 200 & response.respHeaders .~ hdrs t = Proxy :: Proxy cts p = Proxy :: Proxy a instance (KnownSymbol sym, ToParam (QueryParam sym a), HasDocs sublayout) => HasDocs (QueryParam sym a :> sublayout) where docsFor Proxy (endpoint, action) = docsFor sublayoutP (endpoint, action') where sublayoutP = Proxy :: Proxy sublayout paramP = Proxy :: Proxy (QueryParam sym a) action' = over params (|> toParam paramP) action instance (KnownSymbol sym, ToParam (QueryParams sym a), HasDocs sublayout) => HasDocs (QueryParams sym a :> sublayout) where docsFor Proxy (endpoint, action) = docsFor sublayoutP (endpoint, action') where sublayoutP = Proxy :: Proxy sublayout paramP = Proxy :: Proxy (QueryParams sym a) action' = over params (|> toParam paramP) action instance (KnownSymbol sym, ToParam (QueryFlag sym), HasDocs sublayout) => HasDocs (QueryFlag sym :> sublayout) where docsFor Proxy (endpoint, action) = docsFor sublayoutP (endpoint, action') where sublayoutP = Proxy :: Proxy sublayout paramP = Proxy :: Proxy (QueryFlag sym) action' = over params (|> toParam paramP) action instance (KnownSymbol sym, ToParam (MatrixParam sym a), HasDocs sublayout) => HasDocs (MatrixParam sym a :> sublayout) where docsFor Proxy (endpoint, action) = docsFor sublayoutP (endpoint', action') where sublayoutP = Proxy :: Proxy sublayout paramP = Proxy :: Proxy (MatrixParam sym a) segment = endpoint ^. (path._last) segment' = action ^. (mxParams._last._1) endpoint' = over (path._last) (\p -> p ++ ";" ++ symbolVal symP ++ "=") endpoint action' = if segment' /= segment -- This is the first matrix parameter for this segment, insert a new entry into the mxParams list then over mxParams (|> (segment, [toParam paramP])) action -- We've already inserted a matrix parameter for this segment, append to the existing list else action & mxParams._last._2 <>~ [toParam paramP] symP = Proxy :: Proxy sym instance (KnownSymbol sym, {- ToParam (MatrixParams sym a), -} HasDocs sublayout) => HasDocs (MatrixParams sym a :> sublayout) where docsFor Proxy (endpoint, action) = docsFor sublayoutP (endpoint', action) where sublayoutP = Proxy :: Proxy sublayout endpoint' = over path (\p -> p ++ [";" ++ symbolVal symP ++ "="]) endpoint symP = Proxy :: Proxy sym instance (KnownSymbol sym, {- ToParam (MatrixFlag sym), -} HasDocs sublayout) => HasDocs (MatrixFlag sym :> sublayout) where docsFor Proxy (endpoint, action) = docsFor sublayoutP (endpoint', action) where sublayoutP = Proxy :: Proxy sublayout endpoint' = over path (\p -> p ++ [";" ++ symbolVal symP]) endpoint symP = Proxy :: Proxy sym instance HasDocs Raw where docsFor _proxy (endpoint, action) = single endpoint action -- TODO: We use 'AllMimeRender' here because we need to be able to show the -- example data. However, there's no reason to believe that the instances of -- 'AllMimeUnrender' and 'AllMimeRender' actually agree (or to suppose that -- both are even defined) for any particular type. instance (ToSample a b, IsNonEmpty cts, AllMimeRender cts b, HasDocs sublayout , SupportedTypes cts) => HasDocs (ReqBody cts a :> sublayout) where docsFor Proxy (endpoint, action) = docsFor sublayoutP (endpoint, action') where sublayoutP = Proxy :: Proxy sublayout action' = action & rqbody .~ sampleByteString t p & rqtypes .~ supportedTypes t t = Proxy :: Proxy cts p = Proxy :: Proxy a instance (KnownSymbol path, HasDocs sublayout) => HasDocs (path :> sublayout) where docsFor Proxy (endpoint, action) = docsFor sublayoutP (endpoint', action) where sublayoutP = Proxy :: Proxy sublayout endpoint' = endpoint & path <>~ [symbolVal pa] pa = Proxy :: Proxy path