Stability  experimental 

Maintainer  ekmett@gmail.com 
Safe Haskell  SafeInfered 
A generalized State monad, parameterized by a Representable functor. The representation of that functor serves as the state.
 type State g = StateT g Identity
 runState :: Indexable g => State g a > Key g > (a, Key g)
 evalState :: Indexable g => State g a > Key g > a
 execState :: Indexable g => State g a > Key g > Key g
 mapState :: Functor g => ((a, Key g) > (b, Key g)) > State g a > State g b
 newtype StateT g m a = StateT {}
 stateT :: Representable g => (Key g > m (a, Key g)) > StateT g m a
 runStateT :: Indexable g => StateT g m a > Key g > m (a, Key g)
 evalStateT :: (Indexable g, Monad m) => StateT g m a > Key g > m a
 execStateT :: (Indexable g, Monad m) => StateT g m a > Key g > m (Key g)
 mapStateT :: Functor g => (m (a, Key g) > n (b, Key g)) > StateT g m a > StateT g n b
 liftCallCC :: Representable g => ((((a, Key g) > m (b, Key g)) > m (a, Key g)) > m (a, Key g)) > ((a > StateT g m b) > StateT g m a) > StateT g m a
 liftCallCC' :: Representable g => ((((a, Key g) > m (b, Key g)) > m (a, Key g)) > m (a, Key g)) > ((a > StateT g m b) > StateT g m a) > StateT g m a
 get :: MonadState s m => m s
 gets :: MonadState s m => (s > a) > m a
 put :: MonadState s m => s > m ()
 modify :: MonadState s m => (s > s) > m ()
Documentation
type State g = StateT g IdentitySource
A memoized state monad parameterized by a representable functor g
, where
the representatation of g
, Key g
is the state to carry.
The return
function leaves the state unchanged, while >>=
uses
the final state of the first computation as the initial state of
the second.
:: Indexable g  
=> State g a  statepassing computation to execute 
> Key g  initial state 
> (a, Key g)  return value and final state 
Unwrap a state monad computation as a function.
(The inverse of state
.)
A state transformer monad parameterized by:

g
 A representable functor used to memoize results for a stateKey g

m
 The inner monad.
The return
function leaves the state unchanged, while >>=
uses
the final state of the first computation as the initial state of
the second.
(Functor f, Representable g, MonadFree f m) => MonadFree f (StateT g m)  
(Representable g, MonadReader e m) => MonadReader e (StateT g m)  
(Representable g, Monad m, ~ * (Key g) s) => MonadState s (StateT g m)  
(Representable g, MonadWriter w m) => MonadWriter w (StateT g m)  
Representable f => MonadTrans (StateT f)  
Representable f => BindTrans (StateT f)  
(Representable g, Monad m) => Monad (StateT g m)  
(Functor g, Functor m) => Functor (StateT g m)  
(Representable g, Functor m, Monad m) => Applicative (StateT g m)  
(Representable g, MonadCont m) => MonadCont (StateT g m)  
(Functor g, Indexable g, Bind m) => Apply (StateT g m)  
(Functor g, Indexable g, Bind m) => Bind (StateT g m) 
evalStateT :: (Indexable g, Monad m) => StateT g m a > Key g > m aSource
Evaluate a state computation with the given initial state and return the final value, discarding the final state.
evalStateT
m s =liftM
fst
(runStateT
m s)
execStateT :: (Indexable g, Monad m) => StateT g m a > Key g > m (Key g)Source
Evaluate a state computation with the given initial state and return the final state, discarding the final value.
execStateT
m s =liftM
snd
(runStateT
m s)
liftCallCC :: Representable g => ((((a, Key g) > m (b, Key g)) > m (a, Key g)) > m (a, Key g)) > ((a > StateT g m b) > StateT g m a) > StateT g m aSource
Uniform lifting of a callCC
operation to the new monad.
This version rolls back to the original state on entering the
continuation.
liftCallCC' :: Representable g => ((((a, Key g) > m (b, Key g)) > m (a, Key g)) > m (a, Key g)) > ((a > StateT g m b) > StateT g m a) > StateT g m aSource
Insitu lifting of a callCC
operation to the new monad.
This version uses the current state on entering the continuation.
It does not satisfy the laws of a monad transformer.
get :: MonadState s m => m s
Return the state from the internals of the monad.
gets :: MonadState s m => (s > a) > m a
Gets specific component of the state, using a projection function supplied.
put :: MonadState s m => s > m ()
Replace the state inside the monad.
modify :: MonadState s m => (s > s) > m ()
Monadic state transformer.
Maps an old state to a new state inside a state monad. The old state is thrown away.
Main> :t modify ((+1) :: Int > Int) modify (...) :: (MonadState Int a) => a ()
This says that modify (+1)
acts over any
Monad that is a member of the MonadState
class,
with an Int
state.