{-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE CPP, OverloadedStrings, FlexibleInstances, MultiParamTypeClasses, GeneralizedNewtypeDeriving #-} module Database.Redis.Transactions ( watch, unwatch, multiExec, Queued(), TxResult(..), RedisTx(), ) where #if __GLASGOW_HASKELL__ < 710 import Control.Applicative #endif import Control.Monad.State.Strict import Control.DeepSeq import GHC.Generics import Data.ByteString (ByteString) import Data.Vector (Vector, fromList, (!)) import Database.Redis.Core import Database.Redis.Protocol import Database.Redis.Types -- |Command-context inside of MULTI\/EXEC transactions. Use 'multiExec' to run -- actions of this type. -- -- In the 'RedisTx' context, all commands return a 'Queued' value. It is a -- proxy object for the /actual/ result, which will only be available after -- finishing the transaction. newtype RedisTx a = RedisTx (StateT Int Redis a) deriving (Monad, MonadIO, Functor, Applicative) runRedisTx :: RedisTx a -> Redis a runRedisTx (RedisTx r) = evalStateT r 0 instance MonadRedis RedisTx where liftRedis = RedisTx . lift instance RedisCtx RedisTx Queued where returnDecode _queued = RedisTx $ do -- future index in EXEC result list i <- get put (i+1) return $ Queued (decode . (!i)) -- |A 'Queued' value represents the result of a command inside a transaction. It -- is a proxy object for the /actual/ result, which will only be available -- after returning from a 'multiExec' transaction. -- -- 'Queued' values are composable by utilizing the 'Functor', 'Applicative' or -- 'Monad' interfaces. data Queued a = Queued (Vector Reply -> Either Reply a) instance Functor Queued where fmap f (Queued g) = Queued (fmap f . g) instance Applicative Queued where pure x = Queued (const $ Right x) Queued f <*> Queued x = Queued $ \rs -> do f' <- f rs x' <- x rs return (f' x') instance Monad Queued where return = pure Queued x >>= f = Queued $ \rs -> do x' <- x rs let Queued f' = f x' f' rs -- | Result of a 'multiExec' transaction. data TxResult a = TxSuccess a -- ^ Transaction completed successfully. The wrapped value corresponds to -- the 'Queued' value returned from the 'multiExec' argument action. | TxAborted -- ^ Transaction aborted due to an earlier 'watch' command. | TxError String -- ^ At least one of the commands returned an 'Error' reply. deriving (Show, Eq, Generic) instance NFData a => NFData (TxResult a) -- |Watch the given keys to determine execution of the MULTI\/EXEC block -- (<http://redis.io/commands/watch>). watch :: [ByteString] -- ^ key -> Redis (Either Reply Status) watch key = sendRequest ("WATCH" : key) -- |Forget about all watched keys (<http://redis.io/commands/unwatch>). unwatch :: Redis (Either Reply Status) unwatch = sendRequest ["UNWATCH"] -- |Run commands inside a transaction. For documentation on the semantics of -- Redis transaction see <http://redis.io/topics/transactions>. -- -- Inside the transaction block, command functions return their result wrapped -- in a 'Queued'. The 'Queued' result is a proxy object for the actual -- command\'s result, which will only be available after @EXEC@ing the -- transaction. -- -- Example usage (note how 'Queued' \'s 'Applicative' instance is used to -- combine the two individual results): -- -- @ -- runRedis conn $ do -- set \"hello\" \"hello\" -- set \"world\" \"world\" -- helloworld <- 'multiExec' $ do -- hello <- get \"hello\" -- world <- get \"world\" -- return $ (,) \<$\> hello \<*\> world -- liftIO (print helloworld) -- @ multiExec :: RedisTx (Queued a) -> Redis (TxResult a) multiExec rtx = do -- We don't need to catch exceptions and call DISCARD. The pool will close -- the connection anyway. _ <- multi Queued f <- runRedisTx rtx r <- exec case r of MultiBulk rs -> return $ maybe TxAborted (either (TxError . show) TxSuccess . f . fromList) rs _ -> error $ "hedis: EXEC returned " ++ show r multi :: Redis (Either Reply Status) multi = sendRequest ["MULTI"] exec :: Redis Reply exec = either id id <$> sendRequest ["EXEC"]