{-# LANGUAGE MultiParamTypeClasses #-}
-{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE RankNTypes #-}
+{-# LANGUAGE OverloadedStrings #-}
module Language.Haskell.LSP.Test.Parsing where
import Control.Applicative
-import Control.Concurrent.Chan
-import Control.Concurrent.MVar
-import Control.Monad.Trans.Class
+import Control.Concurrent
+import Control.Lens
import Control.Monad.IO.Class
-import Control.Monad.Trans.Reader
-import Control.Monad.Trans.State
+import Control.Monad
import Data.Aeson
import qualified Data.ByteString.Lazy.Char8 as B
-import Data.Conduit hiding (await)
import Data.Conduit.Parser
import Data.Maybe
+import qualified Data.Text as T
+import Data.Typeable
import Language.Haskell.LSP.Messages
-import Language.Haskell.LSP.Types
-import Language.Haskell.LSP.Test.Compat
-import Language.Haskell.LSP.Test.Decoding
+import Language.Haskell.LSP.Types as LSP hiding (error)
import Language.Haskell.LSP.Test.Messages
-import System.IO
-
-data SessionContext = SessionContext
- {
- serverIn :: Handle,
- rootDir :: FilePath,
- messageChan :: Chan FromServerMessage,
- requestMap :: MVar RequestMap
- }
-
-newtype SessionState = SessionState
- {
- curReqId :: LspId
- }
-
-type ParserStateReader a s r m = ConduitParser a (StateT s (ReaderT r m))
-
--- | A session representing one instance of launching and connecting to a server.
---
--- You can send and receive messages to the server within 'Session' via 'getMessage',
--- 'sendRequest' and 'sendNotification'.
---
--- @
--- runSession \"path\/to\/root\/dir\" $ do
--- docItem <- getDocItem "Desktop/simple.hs" "haskell"
--- sendNotification TextDocumentDidOpen (DidOpenTextDocumentParams docItem)
--- diagnostics <- getMessage :: Session PublishDiagnosticsNotification
--- @
-type Session = ParserStateReader FromServerMessage SessionState SessionContext IO
+import Language.Haskell.LSP.Test.Session
--- | Matches if the message is a notification.
-anyNotification :: Monad m => ConduitParser FromServerMessage m FromServerMessage
-anyNotification = satisfy isServerNotification
+satisfy :: (FromServerMessage -> Bool) -> Session FromServerMessage
+satisfy pred = do
-notification :: forall m a. (Monad m, FromJSON a) => ConduitParser FromServerMessage m (NotificationMessage ServerMethod a)
-notification = do
- let parser = decode . encodeMsg :: FromServerMessage -> Maybe (NotificationMessage ServerMethod a)
- x <- satisfy (isJust . parser)
- return $ fromJust $ decode $ encodeMsg x
+ skipTimeout <- overridingTimeout <$> get
+ timeoutId <- curTimeoutId <$> get
+ unless skipTimeout $ do
+ chan <- asks messageChan
+ timeout <- asks (messageTimeout . config)
+ void $ liftIO $ forkIO $ do
+ threadDelay (timeout * 1000000)
+ writeChan chan (TimeoutMessage timeoutId)
--- | Matches if the message is a request.
-anyRequest :: Monad m => ConduitParser FromServerMessage m FromServerMessage
-anyRequest = satisfy isServerRequest
+ x <- await
-request :: forall m a b. (Monad m, FromJSON a, FromJSON b) => ConduitParser FromServerMessage m (RequestMessage ServerMethod a b)
-request = do
- let parser = decode . encodeMsg :: FromServerMessage -> Maybe (RequestMessage ServerMethod a b)
- x <- satisfy (isJust . parser)
- return $ fromJust $ decode $ encodeMsg x
+ unless skipTimeout $
+ modify $ \s -> s { curTimeoutId = timeoutId + 1 }
+
+ modify $ \s -> s { lastReceivedMessage = Just x }
+
+ if pred x
+ then do
+ logMsg LogServer x
+ return x
+ else empty
+
+-- | Matches a message of type 'a'.
+message :: forall a. (Typeable a, FromJSON a) => Session a
+message =
+ let parser = decode . encodeMsg :: FromServerMessage -> Maybe a
+ in named (T.pack $ show $ head $ snd $ splitTyConApp $ last $ typeRepArgs $ typeOf parser) $
+ castMsg <$> satisfy (isJust . parser)
+
+-- | Matches if the message is a notification.
+anyNotification :: Session FromServerMessage
+anyNotification = named "Any notification" $ satisfy isServerNotification
+
+-- | Matches if the message is a request.
+anyRequest :: Session FromServerMessage
+anyRequest = named "Any request" $ satisfy isServerRequest
-- | Matches if the message is a response.
-anyResponse :: Monad m => ConduitParser FromServerMessage m FromServerMessage
-anyResponse = satisfy isServerResponse
+anyResponse :: Session FromServerMessage
+anyResponse = named "Any response" $ satisfy isServerResponse
-response :: forall m a. (Monad m, FromJSON a) => ConduitParser FromServerMessage m (ResponseMessage a)
-response = do
+responseForId :: forall a. FromJSON a => LspId -> Session (ResponseMessage a)
+responseForId lid = named (T.pack $ "Response for id: " ++ show lid) $ do
let parser = decode . encodeMsg :: FromServerMessage -> Maybe (ResponseMessage a)
- x <- satisfy (isJust . parser)
- return $ fromJust $ decode $ encodeMsg x
+ x <- satisfy (maybe False (\z -> z ^. LSP.id == responseId lid) . parser)
+ return $ castMsg x
+
+anyMessage :: Session FromServerMessage
+anyMessage = satisfy (const True)
+
+-- | A stupid method for getting out the inner message.
+castMsg :: FromJSON a => FromServerMessage -> a
+castMsg = fromMaybe (error "Failed casting a message") . decode . encodeMsg
-- | A version of encode that encodes FromServerMessages as if they
-- weren't wrapped.
encodeMsg = encode . genericToJSON (defaultOptions { sumEncoding = UntaggedValue })
-- | Matches if the message is a log message notification or a show message notification/request.
-loggingNotification :: Monad m => ConduitParser FromServerMessage m FromServerMessage
-loggingNotification = satisfy shouldSkip
+loggingNotification :: Session FromServerMessage
+loggingNotification = named "Logging notification" $ satisfy shouldSkip
where
shouldSkip (NotLogMessage _) = True
shouldSkip (NotShowMessage _) = True
shouldSkip (ReqShowMessage _) = True
shouldSkip _ = False
-publishDiagnosticsNotification :: Monad m => ConduitParser FromServerMessage m PublishDiagnosticsNotification
-publishDiagnosticsNotification = do
+publishDiagnosticsNotification :: Session PublishDiagnosticsNotification
+publishDiagnosticsNotification = named "Publish diagnostics notification" $ do
NotPublishDiagnostics diags <- satisfy test
return diags
where test (NotPublishDiagnostics _) = True
test _ = False
-
-satisfy :: Monad m => (a -> Bool) -> ConduitParser a m a
-satisfy pred = do
- x <- await
- if pred x
- then return x
- else empty
-
-runSession' :: Chan FromServerMessage -> SessionContext -> SessionState -> Session a -> IO (a, SessionState)
-runSession' chan context state session = runReaderT (runStateT conduit state) context
- where conduit = runConduit $ chanSource chan .| runConduitParser session
-
-get :: Monad m => ParserStateReader a s r m s
-get = lift Control.Monad.Trans.State.get
-
-put :: Monad m => s -> ParserStateReader a s r m ()
-put = lift . Control.Monad.Trans.State.put
-
-modify :: Monad m => (s -> s) -> ParserStateReader a s r m ()
-modify = lift . Control.Monad.Trans.State.modify
-
-ask :: Monad m => ParserStateReader a s r m r
-ask = lift $ lift Control.Monad.Trans.Reader.ask