----------------------------------------------------------------- -- Autogenerated by Thrift -- -- DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING -- @generated ----------------------------------------------------------------- {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE BangPatterns #-} {-# OPTIONS_GHC -fno-warn-unused-imports#-} {-# OPTIONS_GHC -fno-warn-overlapping-patterns#-} {-# OPTIONS_GHC -fno-warn-incomplete-patterns#-} {-# OPTIONS_GHC -fno-warn-incomplete-uni-patterns#-} {-# OPTIONS_GHC -fno-warn-incomplete-record-updates#-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} module Service.Q.Client (Q, testFunc1, testFunc1IO, send_testFunc1, _build_testFunc1, testFunc2, testFunc2IO, send_testFunc2, _build_testFunc2, recv_testFunc2, _parse_testFunc2) where import qualified Control.Arrow as Arrow import qualified Control.Concurrent as Concurrent import qualified Control.Exception as Exception import qualified Control.Monad as Monad import qualified Control.Monad.Trans.Class as Trans import qualified Control.Monad.Trans.Reader as Reader import qualified Data.ByteString.Builder as ByteString import qualified Data.ByteString.Lazy as LBS import qualified Data.HashMap.Strict as HashMap import qualified Data.Int as Int import qualified Data.List as List import qualified Data.Proxy as Proxy import qualified Prelude as Prelude import qualified Thrift.Binary.Parser as Parser import qualified Thrift.Codegen as Thrift import qualified Thrift.Protocol.ApplicationException.Types as Thrift import Data.Monoid ((<>)) import Prelude ((==), (=<<), (>>=), (<$>), (.)) import Service.Types data Q testFunc1 :: (Thrift.Protocol p, Thrift.ClientChannel c, (Thrift.<:) s Q) => Thrift.ThriftM p c s () testFunc1 = do Thrift.ThriftEnv _proxy _channel _opts _counter <- Reader.ask Trans.lift (testFunc1IO _proxy _channel _counter _opts) testFunc1IO :: (Thrift.Protocol p, Thrift.ClientChannel c, (Thrift.<:) s Q) => Proxy.Proxy p -> c s -> Thrift.Counter -> Thrift.RpcOptions -> Prelude.IO () testFunc1IO _proxy _channel _counter _opts = do _handle <- Concurrent.newEmptyMVar send_testFunc1 _proxy _channel _counter (Concurrent.putMVar _handle) _opts Concurrent.takeMVar _handle >>= Prelude.maybe (Prelude.return ()) Exception.throw send_testFunc1 :: (Thrift.Protocol p, Thrift.ClientChannel c, (Thrift.<:) s Q) => Proxy.Proxy p -> c s -> Thrift.Counter -> Thrift.SendCallback -> Thrift.RpcOptions -> Prelude.IO () send_testFunc1 _proxy _channel _counter _sendCob _rpcOpts = do _seqNum <- _counter let _callMsg = LBS.toStrict (ByteString.toLazyByteString (_build_testFunc1 _proxy _seqNum)) Thrift.sendOnewayRequest _channel (Thrift.Request _callMsg (Thrift.setRpcPriority _rpcOpts Thrift.NormalPriority)) _sendCob _build_testFunc1 :: Thrift.Protocol p => Proxy.Proxy p -> Int.Int32 -> ByteString.Builder _build_testFunc1 _proxy _seqNum = Thrift.genMsgBegin _proxy "testFunc1" 1 _seqNum <> Thrift.genStruct _proxy [] <> Thrift.genMsgEnd _proxy testFunc2 :: (Thrift.Protocol p, Thrift.ClientChannel c, (Thrift.<:) s Q) => Thrift.ThriftM p c s Int.Int32 testFunc2 = do Thrift.ThriftEnv _proxy _channel _opts _counter <- Reader.ask Trans.lift (testFunc2IO _proxy _channel _counter _opts) testFunc2IO :: (Thrift.Protocol p, Thrift.ClientChannel c, (Thrift.<:) s Q) => Proxy.Proxy p -> c s -> Thrift.Counter -> Thrift.RpcOptions -> Prelude.IO Int.Int32 testFunc2IO _proxy _channel _counter _opts = do (_handle, _sendCob, _recvCob) <- Thrift.mkCallbacks (recv_testFunc2 _proxy) send_testFunc2 _proxy _channel _counter _sendCob _recvCob _opts Thrift.wait _handle send_testFunc2 :: (Thrift.Protocol p, Thrift.ClientChannel c, (Thrift.<:) s Q) => Proxy.Proxy p -> c s -> Thrift.Counter -> Thrift.SendCallback -> Thrift.RecvCallback -> Thrift.RpcOptions -> Prelude.IO () send_testFunc2 _proxy _channel _counter _sendCob _recvCob _rpcOpts = do _seqNum <- _counter let _callMsg = LBS.toStrict (ByteString.toLazyByteString (_build_testFunc2 _proxy _seqNum)) Thrift.sendRequest _channel (Thrift.Request _callMsg (Thrift.setRpcPriority _rpcOpts Thrift.NormalPriority)) _sendCob _recvCob recv_testFunc2 :: (Thrift.Protocol p) => Proxy.Proxy p -> Thrift.Response -> Prelude.Either Exception.SomeException Int.Int32 recv_testFunc2 _proxy (Thrift.Response _response _) = Monad.join (Arrow.left (Exception.SomeException . Thrift.ProtocolException) (Parser.parse (_parse_testFunc2 _proxy) _response)) _build_testFunc2 :: Thrift.Protocol p => Proxy.Proxy p -> Int.Int32 -> ByteString.Builder _build_testFunc2 _proxy _seqNum = Thrift.genMsgBegin _proxy "testFunc2" 1 _seqNum <> Thrift.genStruct _proxy [] <> Thrift.genMsgEnd _proxy _parse_testFunc2 :: Thrift.Protocol p => Proxy.Proxy p -> Parser.Parser (Prelude.Either Exception.SomeException Int.Int32) _parse_testFunc2 _proxy = do Thrift.MsgBegin _name _msgTy _ <- Thrift.parseMsgBegin _proxy _result <- case _msgTy of 1 -> Prelude.fail "testFunc2: expected reply but got function call" 2 | _name == "testFunc2" -> do let _idMap = HashMap.fromList [("testFunc2_success", 0)] _fieldBegin <- Thrift.parseFieldBegin _proxy 0 _idMap case _fieldBegin of Thrift.FieldBegin _type _id _bool -> do case _id of 0 | _type == Thrift.getI32Type _proxy -> Prelude.fmap Prelude.Right (Thrift.parseI32 _proxy) _ -> Prelude.fail (Prelude.unwords ["unrecognized exception, type:", Prelude.show _type, "field id:", Prelude.show _id]) Thrift.FieldEnd -> Prelude.fail "no response" | Prelude.otherwise -> Prelude.fail "reply function does not match" 3 -> Prelude.fmap (Prelude.Left . Exception.SomeException) (Thrift.parseStruct _proxy :: Parser.Parser Thrift.ApplicationException) 4 -> Prelude.fail "testFunc2: expected reply but got oneway function call" _ -> Prelude.fail "testFunc2: invalid message type" Thrift.parseMsgEnd _proxy Prelude.return _result