Copyright  Bas van Dijk, Anders Kaseorg 

License  BSDstyle 
Maintainer  Bas van Dijk <v.dijk.bas@gmail.com> 
Stability  experimental 
Safe Haskell  Trustworthy 
Language  Haskell98 
 class MonadTrans t => MonadTransControl t where
 type Run t = forall n b. Monad n => t n b > n (StT t b)
 defaultLiftWith :: (Monad m, MonadTransControl n) => (forall b. n m b > t m b) > (forall o b. t o b > n o b) > (forall b. StT n b > StT t b) > (Run t > m a) > t m a
 defaultRestoreT :: (Monad m, MonadTransControl n) => (n m a > t m a) > (StT t a > StT n a) > m (StT t a) > t m a
 class MonadBase b m => MonadBaseControl b m  m > b where
 data StM m :: * > *
 liftBaseWith :: (RunInBase m b > b a) > m a
 restoreM :: StM m a > m a
 type RunInBase m b = forall a. m a > b (StM m a)
 type ComposeSt t m a = StM m (StT t a)
 defaultLiftBaseWith :: (MonadTransControl t, MonadBaseControl b m) => (forall c. ComposeSt t m c > StM (t m) c) > (RunInBase (t m) b > b a) > t m a
 defaultRestoreM :: (MonadTransControl t, MonadBaseControl b m) => (StM (t m) a > ComposeSt t m a) > StM (t m) a > t m a
 control :: MonadBaseControl b m => (RunInBase m b > b (StM m a)) > m a
 liftBaseOp :: MonadBaseControl b m => ((a > b (StM m c)) > b (StM m d)) > (a > m c) > m d
 liftBaseOp_ :: MonadBaseControl b m => (b (StM m a) > b (StM m c)) > m a > m c
 liftBaseDiscard :: MonadBaseControl b m => (b () > b a) > m () > m a
MonadTransControl
class MonadTrans t => MonadTransControl t where Source
liftWith :: Monad m => (Run t > m a) > t m a Source
liftWith
is similar to lift
in that it lifts a computation from
the argument monad to the constructed monad.
Instances should satisfy similar laws as the MonadTrans
laws:
liftWith . const . return = return
liftWith (const (m >>= f)) = liftWith (const m) >>= liftWith . const . f
The difference with lift
is that before lifting the m
computation
liftWith
captures the state of t
. It then provides the m
computation with a Run
function that allows running t n
computations in
n
(for all n
) on the captured state.
restoreT :: Monad m => m (StT t a) > t m a Source
Construct a t
computation from the monadic state of t
that is
returned from a Run
function.
Instances should satisfy:
liftWith (\run > run t) >>= restoreT . return = t
MonadTransControl MaybeT  
MonadTransControl ListT  
MonadTransControl IdentityT  
Monoid w => MonadTransControl (WriterT w)  
Monoid w => MonadTransControl (WriterT w)  
Error e => MonadTransControl (ErrorT e)  
MonadTransControl (ExceptT e)  
MonadTransControl (StateT s)  
MonadTransControl (StateT s)  
MonadTransControl (ReaderT r)  
Monoid w => MonadTransControl (RWST r w s)  
Monoid w => MonadTransControl (RWST r w s) 
Defaults for MonadTransControl
Following functions can be used to define MonadTransControl
instances for
newtypes.
{# LANGUAGE GeneralizedNewtypeDeriving #} newtype CounterT m a = CounterT {unCounterT :: StateT Int m a} deriving (Monad, MonadTrans) instance MonadTransControl CounterT where newtype StT CounterT a = StCounter {unStCounter :: StT (StateT Int) a} liftWith =defaultLiftWith
CounterT unCounterT StCounter restoreT =defaultRestoreT
CounterT unStCounter
:: (Monad m, MonadTransControl n)  
=> (forall b. n m b > t m b)  Monad constructor 
> (forall o b. t o b > n o b)  Monad deconstructor 
> (forall b. StT n b > StT t b) 

> (Run t > m a)  
> t m a 
Default definition for the liftWith
method.
MonadBaseControl
class MonadBase b m => MonadBaseControl b m  m > b where Source
liftBaseWith :: (RunInBase m b > b a) > m a Source
liftBaseWith
is similar to liftIO
and liftBase
in that it
lifts a base computation to the constructed monad.
Instances should satisfy similar laws as the MonadIO
and MonadBase
laws:
liftBaseWith . const . return = return
liftBaseWith (const (m >>= f)) = liftBaseWith (const m) >>= liftBaseWith . const . f
The difference with liftBase
is that before lifting the base computation
liftBaseWith
captures the state of m
. It then provides the base
computation with a RunInBase
function that allows running m
computations in the base monad on the captured state.
restoreM :: StM m a > m a Source
Construct a m
computation from the monadic state of m
that is
returned from a RunInBase
function.
Instances should satisfy:
liftBaseWith (\runInBase > runInBase m) >>= restoreM = m
type RunInBase m b = forall a. m a > b (StM m a) Source
A function that runs a m
computation on the monadic state that was
captured by liftBaseWith
A RunInBase m
function yields a computation in the base monad of m
that
returns the monadic state of m
. This state can later be used to restore the
m
computation using restoreM
.
Defaults for MonadBaseControl
Note that by using the following default definitions it's easy to make a
monad transformer T
an instance of MonadBaseControl
:
instance MonadBaseControl b m => MonadBaseControl b (T m) where newtype StM (T m) a = StMT {unStMT ::ComposeSt
T m a} liftBaseWith =defaultLiftBaseWith
StMT restoreM =defaultRestoreM
unStMT
Defining an instance for a base monad B
is equally straightforward:
instance MonadBaseControl B B where newtype StM B a = StMB {unStMB :: a} liftBaseWith f = f $ liftM StMB restoreM = return . unStMB
type ComposeSt t m a = StM m (StT t a) Source
Handy type synonym that composes the monadic states of t
and m
.
It can be used to define the StM
for new MonadBaseControl
instances.
:: (MonadTransControl t, MonadBaseControl b m)  
=> (forall c. ComposeSt t m c > StM (t m) c) 

> (RunInBase (t m) b > b a) > t m a 
Default defintion for the liftBaseWith
method.
Note that it composes a liftWith
of t
with a liftBaseWith
of m
to
give a liftBaseWith
of t m
:
defaultLiftBaseWith stM = \f >liftWith
$ \run >liftBaseWith
$ \runInBase > f $ liftM stM . runInBase . run
:: (MonadTransControl t, MonadBaseControl b m)  
=> (StM (t m) a > ComposeSt t m a) 

> StM (t m) a > t m a 
Utility functions
control :: MonadBaseControl b m => (RunInBase m b > b (StM m a)) > m a Source
An often used composition: control f =
liftBaseWith
f >>= restoreM
liftBaseOp :: MonadBaseControl b m => ((a > b (StM m c)) > b (StM m d)) > (a > m c) > m d Source
liftBaseOp
is a particular application of liftBaseWith
that allows
lifting control operations of type:
((a > b c) > b c)
to: (
.MonadBaseControl
b m => (a > m c) > m c)
For example:
liftBaseOp alloca ::MonadBaseControl
IO
m => (Ptr a > m c) > m c
liftBaseOp_ :: MonadBaseControl b m => (b (StM m a) > b (StM m c)) > m a > m c Source
liftBaseOp_
is a particular application of liftBaseWith
that allows
lifting control operations of type:
(b a > b a)
to: (
.MonadBaseControl
b m => m a > m a)
For example:
liftBaseOp_ mask_ ::MonadBaseControl
IO
m => m a > m a
liftBaseDiscard :: MonadBaseControl b m => (b () > b a) > m () > m a Source
liftBaseDiscard
is a particular application of liftBaseWith
that allows
lifting control operations of type:
(b () > b a)
to: (
.MonadBaseControl
b m => m () > m a)
Note that, while the argument computation m ()
has access to the captured
state, all its sideeffects in m
are discarded. It is run only for its
sideeffects in the base monad b
.
For example:
liftBaseDiscard forkIO ::MonadBaseControl
IO
m => m () > m ThreadId