Copyright | (C) 2012 Edward Kmett |
---|---|
License | BSD-style (see the file LICENSE) |
Maintainer | Edward Kmett <ekmett@gmail.com> |
Stability | provisional |
Portability | rank-2, GADTs |
Safe Haskell | None |
Language | Haskell2010 |
Synopsis
- newtype MachineT m k o = MachineT {
- runMachineT :: m (Step k o (MachineT m k o))
- data Step k o r
- type Machine k o = forall m. Monad m => MachineT m k o
- runT_ :: Monad m => MachineT m k b -> m ()
- runT :: Monad m => MachineT m k b -> m [b]
- run :: MachineT Identity k b -> [b]
- runMachine :: MachineT Identity k o -> Step k o (MachineT Identity k o)
- encased :: Monad m => Step k o (MachineT m k o) -> MachineT m k o
- construct :: Monad m => PlanT k o m a -> MachineT m k o
- repeatedly :: Monad m => PlanT k o m a -> MachineT m k o
- unfoldPlan :: Monad m => s -> (s -> PlanT k o m s) -> MachineT m k o
- before :: Monad m => MachineT m k o -> PlanT k o m a -> MachineT m k o
- preplan :: Monad m => PlanT k o m (MachineT m k o) -> MachineT m k o
- deconstruct :: Monad m => MachineT m k (Either a o) -> PlanT k o m a
- tagDone :: Monad m => (o -> Bool) -> MachineT m k o -> MachineT m k (Either o o)
- finishWith :: Monad m => (o -> Maybe r) -> MachineT m k o -> MachineT m k (Either r o)
- fit :: Monad m => (forall a. k a -> k' a) -> MachineT m k o -> MachineT m k' o
- fitM :: (Monad m, Monad m') => (forall a. m a -> m' a) -> MachineT m k o -> MachineT m' k o
- pass :: k o -> Machine k o
- starve :: Monad m => MachineT m k0 b -> MachineT m k b -> MachineT m k b
- stopped :: Machine k b
- stepMachine :: Monad m => MachineT m k o -> (Step k o (MachineT m k o) -> MachineT m k' o') -> MachineT m k' o'
- class Appliance k where
Machines
newtype MachineT m k o Source #
A MachineT
reads from a number of inputs and may yield results before stopping
with monadic side-effects.
MachineT | |
|
Instances
Monad m => Functor (MachineT m k) Source # | |
(Monad m, Appliance k) => Applicative (MachineT m k) Source # | |
Defined in Data.Machine.Type | |
m ~ Identity => Foldable (MachineT m k) Source # | This permits toList to be used on a Machine. |
Defined in Data.Machine.Type fold :: Monoid m0 => MachineT m k m0 -> m0 # foldMap :: Monoid m0 => (a -> m0) -> MachineT m k a -> m0 # foldr :: (a -> b -> b) -> b -> MachineT m k a -> b # foldr' :: (a -> b -> b) -> b -> MachineT m k a -> b # foldl :: (b -> a -> b) -> b -> MachineT m k a -> b # foldl' :: (b -> a -> b) -> b -> MachineT m k a -> b # foldr1 :: (a -> a -> a) -> MachineT m k a -> a # foldl1 :: (a -> a -> a) -> MachineT m k a -> a # toList :: MachineT m k a -> [a] # null :: MachineT m k a -> Bool # length :: MachineT m k a -> Int # elem :: Eq a => a -> MachineT m k a -> Bool # maximum :: Ord a => MachineT m k a -> a # minimum :: Ord a => MachineT m k a -> a # | |
Monad m => Pointed (MachineT m k) Source # | |
Defined in Data.Machine.Type | |
Monad m => Semigroup (MachineT m k o) Source # | |
Monad m => Monoid (MachineT m k o) Source # | |
runT_ :: Monad m => MachineT m k b -> m () Source #
Stop feeding input into model, taking only the effects.
runT :: Monad m => MachineT m k b -> m [b] Source #
Stop feeding input into model and extract an answer
Building machines from plans
repeatedly :: Monad m => PlanT k o m a -> MachineT m k o Source #
Generates a model that runs a machine until it stops, then start it up again.
repeatedly
m =construct
(forever
m)
unfoldPlan :: Monad m => s -> (s -> PlanT k o m s) -> MachineT m k o Source #
Unfold a stateful PlanT into a MachineT.
before :: Monad m => MachineT m k o -> PlanT k o m a -> MachineT m k o Source #
Evaluate a machine until it stops, and then yield answers according to the supplied model.
preplan :: Monad m => PlanT k o m (MachineT m k o) -> MachineT m k o Source #
Incorporate a Plan
into the resulting machine.
Deconstructing machines back into plans
tagDone :: Monad m => (o -> Bool) -> MachineT m k o -> MachineT m k (Either o o) Source #
Use a predicate to mark a yielded value as the terminal value of
this Machine
. This is useful in combination with deconstruct
to
combine Plan
s.
finishWith :: Monad m => (o -> Maybe r) -> MachineT m k o -> MachineT m k (Either r o) Source #
Use a function to produce and mark a yielded value as the
terminal value of a Machine
. All yielded values for which the
given function returns Nothing
are yielded down the pipeline, but
the first value for which the function returns a Just
value will
be returned by a Plan
created via deconstruct
.
Reshaping machines
fitM :: (Monad m, Monad m') => (forall a. m a -> m' a) -> MachineT m k o -> MachineT m' k o Source #
starve :: Monad m => MachineT m k0 b -> MachineT m k b -> MachineT m k b Source #
Run a machine with no input until it stops, then behave as another machine.
stepMachine :: Monad m => MachineT m k o -> (Step k o (MachineT m k o) -> MachineT m k' o') -> MachineT m k' o' Source #
Transform a Machine
by looking at a single step of that machine.