I want to compose operations that may fail, but there is a way to roll back.

For example - an external call to book a hotel room, and an external call to charge a credit card. Both of those calls may fail such as no rooms left, invalid credit card. Both have ways to roll back - cancel hotel room, cancel credit charge.

  1. Is there a name for this type of (not real) atomic. Whenever i search for haskell transaction, I get STM.
  2. Is there an abstraction, a way to compose them, or a library in haskell or any other language?

I feel you could write a monad Atomic T which will track these operations and roll them back if there is an exception.


These operations may be IO operations. If the operations were only memory operations, as the two answers suggest, STM would suffice.

For example booking hotels would via HTTP requests. Database operations such as inserting records via socket communication.

In the real world, for irreversible operations there is a grace period before the operation will be done - e.g. credit cards payments and hotel bookings may be settled at the end of the day, and therefore it is fine to cancel before then.


If you need to resort to making your own monad, it will look something like this:

import Control.Exception (onException, throwIO)

newtype Rollbackable a = Rollbackable (IO (IO (), a))

runRollbackable :: Rollbackable a -> IO a
runRollbackable (Rollbackable m) = fmap snd m
    -- you might want this to catch exceptions and return IO (Either SomeException a) instead

instance Monad Rollbackable where
    return x = Rollbackable $ return (return (), x)
    Rollbackable m >>= f
       = do (rollback, x) <- m
            Rollbackable (f x `onException` rollback)

(You will probably want Functor and Applicative instances also, but they're trivial.)

You would define your rollbackable primitive actions in this way:

rollbackableChargeCreditCard :: CardNumber -> CurrencyAmount -> Rollbackable CCTransactionRef
rollbackableChargeCreditCard ccno amount = Rollbackable
   $ do ref <- ioChargeCreditCard ccno amount
        return (ioUnchargeCreditCard ref, ref)

ioChargeCreditCard :: CardNumber -> CurrencyAmount -> IO CCTransactionRef
-- use throwIO on failure
ioUnchargeCreditCard :: CCTransactionRef -> IO ()
-- these both just do ordinary i/o

Then run them like so:

   $ do price <- rollbackableReserveRoom roomRequirements when
        paymentRef <- rollbackableChargeCreditCard ccno price
        -- etc

This is exactly the purpose of STM. Actions are composed so that they succeed or fail together, automatically.

Very similar to your hotel room problem is the bank transaction example in Simon Peyton-Jones's chapter in "Beautiful Code": http://research.microsoft.com/en-us/um/people/simonpj/papers/stm/beautiful.pdf

  • Ah, but STM specifically prohibits IO. This question asks about IO actions that can be reversed if necessary with a second IO action. – John F. Miller Jul 12 '12 at 19:03
  • 1
    STM is very compatible with IO actions - it just doesn't perform them directly (book.realworldhaskell.org/read/…). Not all IO can be transactional - there's no rollback action for launchMissiles – amindfv Jul 12 '12 at 19:38
  • 1
    I don't see that the question specifically mentions IO. But in any case, the answer for IO is that it can't be done, because the IO monad has operations that irrevocably destroy information, and no way to duplicate the state. In fact, the IO monad is designed specifically for that! – Luis Casillas Jul 12 '12 at 19:40

If your computations could be done only with TVar like things then STM is perfect.

If you need a side effect (like "charge Bob $100") and if there is a error later issue a retraction (like "refund Bob $100") then you need, drumroll please: Control.Exceptions.bracketOnError

        :: IO a         -- ^ computation to run first (\"acquire resource\")
        -> (a -> IO b)  -- ^ computation to run last (\"release resource\")
        -> (a -> IO c)  -- ^ computation to run in-between
        -> IO c         -- returns the value from the in-between computation

Like Control.Exception.bracket, but only performs the final action if there was an exception raised by the in-between computation.

Thus I could imagine using this like:

let safe'charge'Bob = bracketOnError (charge'Bob) (\a -> refund'Bob)

safe'charge'Bob $ \a -> do

Make sure you understand where to use the Control.Exception.mask operation if you are in a multi-threaded program and try things like this.

And I should emphasize that you can and should read the Source Code to Control.Exception and Control.Exception.Base to see how this is done in GHC.

  • One uses Control.Exception.throwIO inside the transaction to force it to roll back. One needs to wrap (safe'charge ...) in something to actually catch the exception (catch*, handle*, try*). – Chris Kuklewicz Jul 12 '12 at 19:45

You really can do this with the clever application of STM. The key is to separate out the IO parts. I assume the trouble is that a transaction might appear to succeed initially, and fail only later on. (If you can recognize failure right away, or soon after, things are simpler):

main = do
   r   <- reserveHotel
   c   <- chargeCreditCard

   let room         = newTVar r
       card         = newTVar c
       transFailure = newEmptyTMVar

   rollback <- forkIO $ do 
       a <- atomically $ takeTMVar transFailure --blocks until we put something here
       case a of
         Left  "No Room"       -> allFullRollback
         Right "Card declined" -> badCardRollback

  failure <- listenForFailure -- A hypothetical IO action that blocks, waiting for
                              -- a failure message or an "all clear"
  case failures of
      "No Room"       -> atomically $ putTMVar (Left "No Room")
      "Card Declined" -> atomically $ putTMVar (Right "Card declined")
      _               -> return ()

Now, there's nothing here that MVars couldn't handle: all we're doing is forking a thread to wait and see if we need to fix things. But you'll presumably be doing some other stuff with your card charges and hotel reservations...

  • 1
    Is it possible to run forkIO (or any IO) from STM? – user1138184 Jul 12 '12 at 23:56
  • No. But most of the time the above code is in IO, not STM. When you need to be in STM for a while, you just use atomically. – Zopa Jul 13 '12 at 0:02

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