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I've added the following rewrite rule to conduit without issue:

{-# RULES "ConduitM: lift x >>= f" forall m f.
    lift m >>= f = ConduitM (PipeM (liftM (unConduitM . f) m))
  #-}

I'm trying to add a similar rewrite rules for liftIO as well

{-# RULES "ConduitM: liftIO x >>= f" forall m f.
    liftIO m >>= f = ConduitM (PipeM (liftM (unConduitM . f) (liftIO m)))
  #-}

However, when I try to do so, I get the following error messages from GHC:

Data/Conduit/Internal/Conduit.hs:1025:84:
    Could not deduce (Monad m) arising from a use of ‘liftM’
    from the context (Monad (ConduitM i o m), MonadIO (ConduitM i o m))
      bound by the RULE "ConduitM: liftIO x >>= f"
      at Data/Conduit/Internal/Conduit.hs:1025:11-118
    Possible fix:
      add (Monad m) to the context of the RULE "ConduitM: liftIO x >>= f"
    In the first argument of ‘PipeM’, namely
      ‘(liftM (unConduitM . f) (liftIO m))’
    In the first argument of ‘ConduitM’, namely
      ‘(PipeM (liftM (unConduitM . f) (liftIO m)))’
    In the expression:
      ConduitM (PipeM (liftM (unConduitM . f) (liftIO m)))

Data/Conduit/Internal/Conduit.hs:1025:108:
    Could not deduce (MonadIO m) arising from a use of ‘liftIO’
    from the context (Monad (ConduitM i o m), MonadIO (ConduitM i o m))
      bound by the RULE "ConduitM: liftIO x >>= f"
      at Data/Conduit/Internal/Conduit.hs:1025:11-118
    Possible fix:
      add (MonadIO m) to the context of
        the RULE "ConduitM: liftIO x >>= f"
    In the second argument of ‘liftM’, namely ‘(liftIO m)’
    In the first argument of ‘PipeM’, namely
      ‘(liftM (unConduitM . f) (liftIO m))’
    In the first argument of ‘ConduitM’, namely
      ‘(PipeM (liftM (unConduitM . f) (liftIO m)))’

I'm unaware of any syntax that would let me specify such context to a rewrite rule. Is there a way to achieve this?

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1 Answer 1

up vote 6 down vote accepted

You can specify the types of the arguments with constraints in the rule, like

{-# RULES "ConduitM: liftIO x >>= f" forall m (f :: (Monad n, MonadIO n) => CounduitM i o n r).
    liftIO m >>= f = ConduitM (PipeM (liftM (unConduitM . f) (liftIO m)))
  #-}

(I haven't tested it, since I haven't the involved package installed, but as far as I understand the types involved, that should work, I think.)

share|improve this answer
    
Exactly what I needed, thank you! –  Michael Snoyman Aug 15 '14 at 14:48

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