tutorial/hs/HaskellServer.hs - thrift - Git at Google

 --
 -- Licensed to the Apache Software Foundation (ASF) under one
 -- or more contributor license agreements. See the NOTICE file
 -- distributed with this work for additional information
 -- regarding copyright ownership. The ASF licenses this file
 -- to you under the Apache License, Version 2.0 (the
 -- "License"); you may not use this file except in compliance
 -- with the License. You may obtain a copy of the License at
 --
 --   http://www.apache.org/licenses/LICENSE-2.0
 --
 -- Unless required by applicable law or agreed to in writing,
 -- software distributed under the License is distributed on an
 -- "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 -- KIND, either express or implied. See the License for the
 -- specific language governing permissions and limitations
 -- under the License.
 --

 import qualified Calculator
 import Calculator_Iface
 import Tutorial_Types
 import SharedService_Iface
 import Shared_Types

 import Thrift
 import Thrift.Protocol.Binary
 import Thrift.Transport
 import Thrift.Server

 import Data.Maybe
 import Text.Printf
 import Control.Exception (throw)
 import Control.Concurrent.MVar
 import qualified Data.Map as M
 import Data.Map ((!))
 import Data.Monoid

 data CalculatorHandler = CalculatorHandler {mathLog :: MVar (M.Map Int SharedStruct)}

 newCalculatorHandler = do
   log <- newMVar mempty
   return $ CalculatorHandler log

 instance SharedService_Iface CalculatorHandler where
   getStruct self k = do
     myLog <- readMVar (mathLog self)
     return $ (myLog ! (fromJust k))


 instance Calculator_Iface CalculatorHandler where
   ping _ =
     print "ping()"

   add _ n1 n2 = do
     printf "add(%d,%d)\n" (fromJust n1) (fromJust n2)
     return ((fromJust n1)+(fromJust n2))

   calculate self mlogid mwork = do
     printf "calculate(%d, %s)\n" logid (show work)

     let val = case op work of
                 ADD ->
                     num1 work + num2 work
                 SUBTRACT ->
                     num1 work - num2 work
                 MULTIPLY ->
                     num1 work * num2 work
                 DIVIDE ->
                     if num2 work == 0 then
                         throw $
                               InvalidOperation {
                                  f_InvalidOperation_what = Just $ fromEnum $ op work,
                                  f_InvalidOperation_why = Just "Cannot divide by 0"
                                             }
                     else
                         num1 work `div` num2 work

     let logEntry = SharedStruct (Just logid) (Just (show val))
     modifyMVar_ (mathLog self) $ return .(M.insert logid logEntry)

     return val

    where
      -- stupid dynamic languages f'ing it up
      num1 = fromJust . f_Work_num1
      num2 = fromJust . f_Work_num2
      op = fromJust . f_Work_op
      logid = fromJust mlogid
      work = fromJust mwork


     --return val

   zip _ =
     print "zip()"

 main =  do
   handler <- newCalculatorHandler
   print "Starting the server..."
   runBasicServer handler Calculator.process 9090
   print "done."
	--
	-- Licensed to the Apache Software Foundation (ASF) under one
	-- or more contributor license agreements. See the NOTICE file
	-- distributed with this work for additional information
	-- regarding copyright ownership. The ASF licenses this file
	-- to you under the Apache License, Version 2.0 (the
	-- "License"); you may not use this file except in compliance
	-- with the License. You may obtain a copy of the License at
	--
	-- http://www.apache.org/licenses/LICENSE-2.0
	--
	-- Unless required by applicable law or agreed to in writing,
	-- software distributed under the License is distributed on an
	-- "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	-- KIND, either express or implied. See the License for the
	-- specific language governing permissions and limitations
	-- under the License.
	--

	import qualified Calculator
	import Calculator_Iface
	import Tutorial_Types
	import SharedService_Iface
	import Shared_Types

	import Thrift
	import Thrift.Protocol.Binary
	import Thrift.Transport
	import Thrift.Server

	import Data.Maybe
	import Text.Printf
	import Control.Exception (throw)
	import Control.Concurrent.MVar
	import qualified Data.Map as M
	import Data.Map ((!))
	import Data.Monoid

	data CalculatorHandler = CalculatorHandler {mathLog :: MVar (M.Map Int SharedStruct)}

	newCalculatorHandler = do
	log <- newMVar mempty
	return $ CalculatorHandler log

	instance SharedService_Iface CalculatorHandler where
	getStruct self k = do
	myLog <- readMVar (mathLog self)
	return $ (myLog ! (fromJust k))


	instance Calculator_Iface CalculatorHandler where
	ping _ =
	print "ping()"

	add _ n1 n2 = do
	printf "add(%d,%d)\n" (fromJust n1) (fromJust n2)
	return ((fromJust n1)+(fromJust n2))

	calculate self mlogid mwork = do
	printf "calculate(%d, %s)\n" logid (show work)

	let val = case op work of
	ADD ->
	num1 work + num2 work
	SUBTRACT ->
	num1 work - num2 work
	MULTIPLY ->
	num1 work * num2 work
	DIVIDE ->
	if num2 work == 0 then
	throw $
	InvalidOperation {
	f_InvalidOperation_what = Just $ fromEnum $ op work,
	f_InvalidOperation_why = Just "Cannot divide by 0"
	}
	else
	num1 work `div` num2 work

	let logEntry = SharedStruct (Just logid) (Just (show val))
	modifyMVar_ (mathLog self) $ return .(M.insert logid logEntry)

	return val

	where
	-- stupid dynamic languages f'ing it up
	num1 = fromJust . f_Work_num1
	num2 = fromJust . f_Work_num2
	op = fromJust . f_Work_op
	logid = fromJust mlogid
	work = fromJust mwork


	--return val

	zip _ =
	print "zip()"

	main = do
	handler <- newCalculatorHandler
	print "Starting the server..."
	runBasicServer handler Calculator.process 9090
	print "done."