rest-gen-0.13: src/Rest/Gen/Base/ActionInfo.hs
{-# LANGUAGE
CPP
, GADTs
, ScopedTypeVariables
#-}
module Rest.Gen.Base.ActionInfo
( Accessor
, ActionInfo (..)
, ActionType (..)
, DataDescription (..)
, DataType (..)
, ResourceId
, accessLink
, accessors
, chooseType
, isAccessor
, listGetterActionInfo
, mkActionDescription
, namedActionInfo
, resourceToAccessors
, resourceToActionInfo
, selectActionInfo
, singleActionInfo
) where
import Prelude hiding (id, (.))
import Control.Applicative
import Control.Category
import Control.Monad
import Data.Foldable (foldMap)
import Data.List
import Data.Maybe
import Data.Proxy
import Data.Typeable
-- TODO Remove CPP
#if __GLASGOW_HASKELL__ < 704
import Data.List.Split
#endif
import qualified Data.JSON.Schema as J
import qualified Data.Label.Total as L
import Rest.Dictionary (Error (..), Input (..), Output (..), Param (..))
import Rest.Driver.Routing (mkListHandler, mkMultiHandler)
import Rest.Handler
import Rest.Info
import Rest.Resource hiding (description)
import Rest.Schema
import qualified Rest.Dictionary as Dict
import qualified Rest.Resource as Rest
import Rest.Gen.Base.ActionInfo.Ident (Ident (Ident))
import Rest.Gen.Base.Link
import Rest.Gen.Types
import qualified Rest.Gen.Base.ActionInfo.Ident as Ident
import qualified Rest.Gen.Base.JSON as J
import qualified Rest.Gen.Base.XML as X
--------------------
-- * The types describing a resource's actions.
-- | Representation of resource
type ResourceId = [String]
-- | Intermediate data representation of Rest structure
data RequestMethod = GET | POST | PUT | DELETE deriving (Show, Eq)
data ActionType = Retrieve | Create | Delete | DeleteMany | List | Update | UpdateMany | Modify
deriving (Show, Eq)
data ActionTarget = Self | Any deriving (Show, Eq)
data ActionInfo = ActionInfo
{ ident :: Maybe Ident -- Requires extra identifier in url? e.g. page/<identifier>
, postAction :: Bool -- Works on identified resources? e.g. uri/<uri>/action
, actionType :: ActionType
, actionTarget :: ActionTarget
, resDir :: String -- Resource directory
, method :: RequestMethod
, inputs :: [DataDescription]
, outputs :: [DataDescription]
, errors :: [DataDescription]
, params :: [String]
, https :: Bool
, link :: Link
} deriving (Show, Eq)
isAccessor :: ActionInfo -> Bool
isAccessor ai = actionType ai == Retrieve && actionTarget ai == Self
data DataType = String | XML | JSON | File | Other deriving (Show, Eq)
-- | Description of input/output data
data DataDescription = DataDescription
{ dataType :: DataType
, dataTypeDesc :: String
, dataSchema :: String
, dataExample :: String
, haskellType :: String
, haskellModule :: [String]
} deriving (Show, Eq)
defaultDescription :: DataDescription
defaultDescription = DataDescription Other "" "" "" "" []
chooseType :: [DataDescription] -> Maybe DataDescription
chooseType [] = Nothing
chooseType ls@(x : _) = Just $ fromMaybe x $ find ((JSON ==) . dataType) ls
--------------------
-- * Traverse a resource's Schema and Handlers to create a [ActionInfo].
resourceToActionInfo :: forall m s sid mid aid. Resource m s sid mid aid -> [ActionInfo]
resourceToActionInfo r =
case schema r of
Schema mTopLevel step -> foldMap (topLevelActionInfo r) mTopLevel
++ stepActionInfo r step
++ foldMap (return . createActionInfo) (Rest.create r)
++ foldMap (return . removeActionInfo accLnk) (Rest.remove r)
++ map (uncurry (selectActionInfo accLnk)) (Rest.selects r)
++ map (uncurry (actionActionInfo accLnk)) (Rest.actions r)
where
accLnk = accessLink (accessors step)
accessLink :: [Accessor] -> Link
accessLink [] = []
accessLink xs = [LAccess . map f $ xs]
where
f ("", x) = par x
f (pth, x) = LAction pth : par x
par = maybe [] (return . LParam . Ident.description)
accessors :: Step sid mid aid -> [Accessor]
accessors (Named hs) = mapMaybe (uncurry accessorsNamed) hs
where
accessorsNamed pth (Right (Single g)) = Just (pth, getId g)
accessorsNamed _ _ = Nothing
getId (Singleton _) = Nothing
getId (By id_) = Just . idIdent $ id_
accessors (Unnamed (Single id_)) = [("", Just . idIdent $ id_)]
accessors (Unnamed (Many _)) = []
type Accessor = (String, Maybe Ident)
resourceToAccessors :: Resource m s sid mid aid -> [Accessor]
resourceToAccessors r =
case schema r of
Schema _ step -> accessors step
topLevelActionInfo :: Resource m s sid mid aid -> Cardinality sid mid -> [ActionInfo]
topLevelActionInfo r (Single _ ) = singleActionInfo r Nothing ""
topLevelActionInfo r@Resource{} (Many mid) = maybeToList
. listActionInfo Nothing ""
. Rest.list r
$ mid
stepActionInfo :: Resource m s sid mid aid -> Step sid mid aid -> [ActionInfo]
stepActionInfo r (Named hs) = concatMap (uncurry (namedActionInfo r)) hs
stepActionInfo r (Unnamed h) = unnamedActionInfo r h
namedActionInfo :: Resource m s sid mid aid -> String -> Endpoint sid mid aid -> [ActionInfo]
namedActionInfo r pth (Left aid) = [staticActionInfo pth (Rest.statics r aid)]
namedActionInfo r pth (Right (Single g)) = getterActionInfo r pth g
namedActionInfo r pth (Right (Many l)) = listGetterActionInfo r pth l
unnamedActionInfo :: Resource m s sid mid aid -> Cardinality (Id sid) (Id mid) -> [ActionInfo]
unnamedActionInfo r@Resource{} unnamed =
case unnamed of
Single id_ -> singleActionInfo r (Just id_) ""
Many id_@(Id _ midF) -> maybeToList $
listActionInfo (Just id_) "" (Rest.list r (midF listIdErr))
getterActionInfo :: Resource m s sid mid aid -> String -> Getter sid -> [ActionInfo]
getterActionInfo r pth (Singleton _) = singleActionInfo r Nothing pth
getterActionInfo r pth (By id_ ) = singleActionInfo r (Just id_) pth
listGetterActionInfo :: Resource m s sid mid aid -> String -> Getter mid -> [ActionInfo]
listGetterActionInfo r@Resource{} pth getter = maybeToList $
case getter of
Singleton mid -> listActionInfo Nothing pth (Rest.list r mid)
By id_@(Id _ midF) -> listActionInfo (Just id_) pth (Rest.list r (midF listIdErr))
listIdErr :: mid
listIdErr = error $ "Don't evaluate the fields of a list identifier unless in the body of the handler. "
++ "They are undefined during generation of documentation and code."
singleActionInfo :: Resource m s sid mid aid -> Maybe (Id sid) -> String -> [ActionInfo]
singleActionInfo r@Resource{} mId pth
= foldMap (return . getActionInfo mId pth) (Rest.get r)
++ foldMap (return . updateActionInfo mId pth) (Rest.update r)
++ maybeToList (join $ multiUpdateActionInfo <$> mId <*> pure pth <*> Rest.update r)
++ maybeToList (join $ multiRemoveActionInfo <$> mId <*> pure pth <*> Rest.remove r)
--------------------
-- * Smart constructors for ActionInfo.
getActionInfo :: Maybe (Id sid) -> String -> Handler m -> ActionInfo
getActionInfo mId pth = handlerActionInfo mId False Retrieve Self pth GET []
updateActionInfo :: Maybe (Id sid) -> String -> Handler m -> ActionInfo
updateActionInfo mId pth = handlerActionInfo mId False Update Any pth PUT []
multiUpdateActionInfo :: Monad m => Id sid -> String -> Handler m -> Maybe ActionInfo
multiUpdateActionInfo id_ pth h = handlerActionInfo Nothing False UpdateMany Any pth PUT []
<$> mkMultiHandler id_ (const id) h
removeActionInfo :: Link -> Handler m -> ActionInfo
removeActionInfo lnk = handlerActionInfo Nothing True Delete Self "" DELETE lnk
multiRemoveActionInfo :: Monad m => Id sid -> String -> Handler m -> Maybe ActionInfo
multiRemoveActionInfo id_ pth h = handlerActionInfo Nothing False DeleteMany Any pth DELETE []
<$> mkMultiHandler id_ (const id) h
listActionInfo :: Monad m => Maybe (Id mid) -> String -> ListHandler m -> Maybe ActionInfo
listActionInfo mId pth h = handlerActionInfo mId False List Self pth GET [] <$> mkListHandler h
staticActionInfo :: String -> Handler m -> ActionInfo
staticActionInfo pth = handlerActionInfo Nothing False Modify Any pth POST []
createActionInfo :: Handler m -> ActionInfo
createActionInfo = handlerActionInfo Nothing False Create Self "" POST []
selectActionInfo :: Link -> String -> Handler m -> ActionInfo
selectActionInfo lnk pth = handlerActionInfo Nothing True Retrieve Any pth GET lnk
actionActionInfo :: Link -> String -> Handler m -> ActionInfo
actionActionInfo lnk pth = handlerActionInfo Nothing True Modify Any pth POST lnk
handlerActionInfo :: Maybe (Id id)
-> Bool
-> ActionType
-> ActionTarget
-> String
-> RequestMethod
-> Link
-> Handler m
-> ActionInfo
handlerActionInfo mId postAct actType actTarget pth mth ac h = ActionInfo
{ ident = id_
, postAction = postAct
, actionType = actType
, actionTarget = actTarget
, resDir = pth
, method = mth
, inputs = handlerInputs h
, outputs = handlerOutputs h
, errors = handlerErrors h
, params = handlerParams h
, https = secure h
, link = makeLink
}
where
id_ = idIdent <$> mId
makeLink :: Link
makeLink
| postAct = ac ++ dirPart ++ identPart
| otherwise = dirPart ++ identPart
where dirPart = if pth /= ""
then [LAction pth]
else []
identPart = maybe [] ((:[]) . LParam . Ident.description) id_
--------------------
-- * Utilities for extraction information from Handlers.
handlerParams :: GenHandler m f -> [String]
handlerParams (GenHandler dict _ _) = paramNames (L.get Dict.params dict)
-- | A `Param` can contain the same parameter multiple times. For
-- example, 'offset' and 'count' are added in Rest.Handler.mkListing,
-- and in Rest.Driver.Routing.mkListHandler. For that reason, we nub
-- here.
paramNames :: Param a -> [String]
paramNames = nub . paramNames_
paramNames_ :: Param a -> [String]
paramNames_ NoParam = []
paramNames_ (Param s _) = s
paramNames_ (TwoParams p1 p2) = paramNames p1 ++ paramNames p2
-- | Extract input description from handlers
handlerInputs :: Handler m -> [DataDescription]
handlerInputs (GenHandler dict _ _) = map (handlerInput Proxy) (L.get (Dict.dicts . Dict.inputs) dict)
where handlerInput :: Proxy a -> Input a -> DataDescription
handlerInput d ReadI = defaultDescription { dataTypeDesc = describe d }
handlerInput _ StringI = defaultDescription { dataType = String
, dataTypeDesc = "String"
}
handlerInput d XmlI = defaultDescription { dataType = XML
, dataTypeDesc = "XML"
, dataSchema = X.showSchema . X.getXmlSchema $ d
, dataExample = X.showExample . X.getXmlSchema $ d
, haskellType = typeString d
, haskellModule = modString d
}
handlerInput _ XmlTextI = defaultDescription { dataType = XML
, dataTypeDesc = "XML"
, haskellType = "String"
}
handlerInput _ RawXmlI = defaultDescription { dataType = XML
, dataTypeDesc = "XML"
, haskellType = "String"
}
handlerInput d JsonI = defaultDescription { dataType = JSON
, dataTypeDesc = "JSON"
, dataExample = J.showExample . J.schema $ d
, haskellType = typeString d
, haskellModule = modString d
}
handlerInput _ FileI = defaultDescription { dataType = File
, dataTypeDesc = "File"
}
-- | Extract output description from handlers
handlerOutputs :: Handler m -> [DataDescription]
handlerOutputs (GenHandler dict _ _) = map (handlerOutput Proxy) (L.get (Dict.dicts . Dict.outputs) dict)
where handlerOutput :: Proxy a -> Output a -> DataDescription
handlerOutput _ StringO = defaultDescription { dataType = String
, dataTypeDesc = "String"
}
handlerOutput d XmlO = defaultDescription { dataType = XML
, dataTypeDesc = "XML"
, dataSchema = X.showSchema . X.getXmlSchema $ d
, dataExample = X.showExample . X.getXmlSchema $ d
, haskellType = typeString d
, haskellModule = modString d
}
handlerOutput _ RawXmlO = defaultDescription { dataType = XML
, dataTypeDesc = "XML"
, haskellType = "String"
}
handlerOutput d JsonO = defaultDescription { dataType = JSON
, dataTypeDesc = "JSON"
, dataExample = J.showExample . J.schema $ d
, haskellType = typeString d
, haskellModule = modString d
}
handlerOutput _ FileO = defaultDescription { dataType = File
, dataTypeDesc = "File"
}
-- | Extract input description from handlers
handlerErrors :: Handler m -> [DataDescription]
handlerErrors (GenHandler dict _ _) = map (handleError Proxy) (L.get (Dict.dicts . Dict.errors) dict)
where handleError :: Proxy a -> Error a -> DataDescription
handleError d XmlE = defaultDescription { dataType = XML
, dataTypeDesc = "XML"
, dataSchema = X.showSchema . X.getXmlSchema $ d
, dataExample = X.showExample . X.getXmlSchema $ d
, haskellType = typeString d
, haskellModule = modString d
}
handleError d JsonE = defaultDescription { dataType = JSON
, dataTypeDesc = "JSON"
, dataExample = J.showExample . J.schema $ d
, haskellType = typeString d
, haskellModule = modString d
}
#if __GLASGOW_HASKELL__ >= 704
typeString :: forall a. Typeable a => Proxy a -> String
typeString _ = typeString' . typeOf $ (undefined :: a)
where typeString' tr =
let (tyCon, subs) = splitTyConApp tr
showTyCon _ "[]" r = "[" ++ r ++ "]"
showTyCon _ "()" _ = "()"
showTyCon m d s | take 4 m == "GHC." = d ++ s
| otherwise = m ++ "." ++ d ++ s
in showTyCon (tyConModule tyCon)
(tyConName tyCon)
(concatMap (\t -> " (" ++ typeString' t ++ ")") subs)
modString :: forall a. Typeable a => Proxy a -> [String]
modString _ = filter (\v -> v /= "" && take 4 v /= "GHC.") . modString' . typeOf $ (undefined :: a)
where modString' tr =
let (tyCon, subs) = splitTyConApp tr
in tyConModule tyCon : concatMap modString' subs
#else
typeString :: Typeable a => a -> String
typeString = show . typeOf
modString :: Typeable a => a -> [String]
modString = filter (/= "") . modString' . typeOf
where modString' tr =
let (tyCon, subs) = splitTyConApp tr
in (intercalate "." . init . splitOn "." . tyConString $ tyCon) : concatMap modString' subs
#endif
idIdent :: Id id -> Ident
idIdent (Id idnt _) = actionIdent idnt
actionIdent :: forall a. Dict.Ident a -> Ident
actionIdent Dict.StringId
= Ident
{ Ident.description = "string"
, Ident.haskellType = "String"
, Ident.haskellModules = []
}
actionIdent Dict.ReadId
= Ident
{ Ident.description = describe proxy_
, Ident.haskellType = typeString proxy_
, Ident.haskellModules = map ModuleName $ modString proxy_
}
where
proxy_ :: Proxy a
proxy_ = Proxy
mkActionDescription :: String -> ActionInfo -> String
mkActionDescription res ai =
let targetS =
case actionTarget ai of
Self -> res
Any -> "information"
in case actionType ai of
Retrieve -> "Retrieve " ++ targetS ++ " data"
Create -> "Create " ++ targetS
Delete -> "Delete " ++ targetS
DeleteMany -> "Delete many " ++ targetS
List -> "List " ++ targetS ++ "s"
Update -> "Update " ++ targetS
UpdateMany -> "Update many " ++ targetS
Modify -> "Modify " ++ targetS