reflex-0.8.2.2: Higher-order Functional Reactive Programming

Safe HaskellNone
LanguageHaskell2010

Reflex.Pure

Contents

Description

 
Synopsis

Documentation

data Pure (t :: Type) Source #

A completely pure-functional Reflex timeline, identifying moments in time with the type t.

Instances
(Enum t, HasTrie t, Ord t) => Reflex (Pure t :: Type) Source #

The Enum instance of t must be dense: for all x :: t, there must not exist any y :: t such that pred x < y < x. The HasTrie instance will be used exclusively to memoize functions of t, not for any of its other capabilities.

Instance details

Defined in Reflex.Pure

Associated Types

data Behavior (Pure t) a :: Type Source #

data Event (Pure t) a :: Type Source #

data Dynamic (Pure t) a :: Type Source #

data Incremental (Pure t) a :: Type Source #

type PushM (Pure t) :: Type -> Type Source #

type PullM (Pure t) :: Type -> Type Source #

Methods

never :: Event (Pure t) a Source #

constant :: a -> Behavior (Pure t) a Source #

push :: (a -> PushM (Pure t) (Maybe b)) -> Event (Pure t) a -> Event (Pure t) b Source #

pushCheap :: (a -> PushM (Pure t) (Maybe b)) -> Event (Pure t) a -> Event (Pure t) b Source #

pull :: PullM (Pure t) a -> Behavior (Pure t) a Source #

mergeG :: GCompare k => (forall (a :: k). q a -> Event (Pure t) (v a)) -> DMap k q -> Event (Pure t) (DMap k v) Source #

fanG :: GCompare k => Event (Pure t) (DMap k v) -> EventSelectorG (Pure t) k v Source #

switch :: Behavior (Pure t) (Event (Pure t) a) -> Event (Pure t) a Source #

coincidence :: Event (Pure t) (Event (Pure t) a) -> Event (Pure t) a Source #

current :: Dynamic (Pure t) a -> Behavior (Pure t) a Source #

updated :: Dynamic (Pure t) a -> Event (Pure t) a Source #

unsafeBuildDynamic :: PullM (Pure t) a -> Event (Pure t) a -> Dynamic (Pure t) a Source #

unsafeBuildIncremental :: Patch p => PullM (Pure t) (PatchTarget p) -> Event (Pure t) p -> Incremental (Pure t) p Source #

mergeIncrementalG :: GCompare k => (forall (a :: k). q a -> Event (Pure t) (v a)) -> Incremental (Pure t) (PatchDMap k q) -> Event (Pure t) (DMap k v) Source #

mergeIncrementalWithMoveG :: GCompare k => (forall (a :: k). q a -> Event (Pure t) (v a)) -> Incremental (Pure t) (PatchDMapWithMove k q) -> Event (Pure t) (DMap k v) Source #

currentIncremental :: Patch p => Incremental (Pure t) p -> Behavior (Pure t) (PatchTarget p) Source #

updatedIncremental :: Patch p => Incremental (Pure t) p -> Event (Pure t) p Source #

incrementalToDynamic :: Patch p => Incremental (Pure t) p -> Dynamic (Pure t) (PatchTarget p) Source #

behaviorCoercion :: Coercion a b -> Coercion (Behavior (Pure t) a) (Behavior (Pure t) b) Source #

eventCoercion :: Coercion a b -> Coercion (Event (Pure t) a) (Event (Pure t) b) Source #

dynamicCoercion :: Coercion a b -> Coercion (Dynamic (Pure t) a) (Dynamic (Pure t) b) Source #

incrementalCoercion :: Coercion (PatchTarget a) (PatchTarget b) -> Coercion a b -> Coercion (Incremental (Pure t) a) (Incremental (Pure t) b) Source #

mergeIntIncremental :: Incremental (Pure t) (PatchIntMap (Event (Pure t) a)) -> Event (Pure t) (IntMap a) Source #

fanInt :: Event (Pure t) (IntMap a) -> EventSelectorInt (Pure t) a Source #

(Enum t, HasTrie t, Ord t) => MonadHold (Pure t :: Type) ((->) t :: Type -> Type) Source # 
Instance details

Defined in Reflex.Pure

Methods

hold :: a -> Event (Pure t) a -> t -> Behavior (Pure t) a Source #

holdDyn :: a -> Event (Pure t) a -> t -> Dynamic (Pure t) a Source #

holdIncremental :: Patch p => PatchTarget p -> Event (Pure t) p -> t -> Incremental (Pure t) p Source #

buildDynamic :: PushM (Pure t) a -> Event (Pure t) a -> t -> Dynamic (Pure t) a Source #

headE :: Event (Pure t) a -> t -> Event (Pure t) a Source #

now :: t -> Event (Pure t) () Source #

MonadSample (Pure t :: Type) ((->) t :: Type -> Type) Source # 
Instance details

Defined in Reflex.Pure

Methods

sample :: Behavior (Pure t) a -> t -> a Source #

Monad (Dynamic (Pure t)) Source # 
Instance details

Defined in Reflex.Pure

Methods

(>>=) :: Dynamic (Pure t) a -> (a -> Dynamic (Pure t) b) -> Dynamic (Pure t) b #

(>>) :: Dynamic (Pure t) a -> Dynamic (Pure t) b -> Dynamic (Pure t) b #

return :: a -> Dynamic (Pure t) a #

fail :: String -> Dynamic (Pure t) a #

Functor (Dynamic (Pure t)) Source # 
Instance details

Defined in Reflex.Pure

Methods

fmap :: (a -> b) -> Dynamic (Pure t) a -> Dynamic (Pure t) b #

(<$) :: a -> Dynamic (Pure t) b -> Dynamic (Pure t) a #

Applicative (Dynamic (Pure t)) Source # 
Instance details

Defined in Reflex.Pure

Methods

pure :: a -> Dynamic (Pure t) a #

(<*>) :: Dynamic (Pure t) (a -> b) -> Dynamic (Pure t) a -> Dynamic (Pure t) b #

liftA2 :: (a -> b -> c) -> Dynamic (Pure t) a -> Dynamic (Pure t) b -> Dynamic (Pure t) c #

(*>) :: Dynamic (Pure t) a -> Dynamic (Pure t) b -> Dynamic (Pure t) b #

(<*) :: Dynamic (Pure t) a -> Dynamic (Pure t) b -> Dynamic (Pure t) a #

newtype Behavior (Pure t :: Type) a Source # 
Instance details

Defined in Reflex.Pure

newtype Behavior (Pure t :: Type) a = Behavior {}
newtype Event (Pure t :: Type) a Source # 
Instance details

Defined in Reflex.Pure

newtype Event (Pure t :: Type) a = Event {}
newtype Dynamic (Pure t :: Type) a Source # 
Instance details

Defined in Reflex.Pure

newtype Dynamic (Pure t :: Type) a = Dynamic {}
newtype Incremental (Pure t :: Type) p Source # 
Instance details

Defined in Reflex.Pure

newtype Incremental (Pure t :: Type) p = Incremental {}
type PushM (Pure t :: Type) Source # 
Instance details

Defined in Reflex.Pure

type PushM (Pure t :: Type) = ((->) t :: Type -> Type)
type PullM (Pure t :: Type) Source # 
Instance details

Defined in Reflex.Pure

type PullM (Pure t :: Type) = ((->) t :: Type -> Type)

data family Behavior t :: Type -> Type Source #

A container for a value that can change over time. Behaviors can be sampled at will, but it is not possible to be notified when they change

Instances
Reflex t => Accumulator (t :: k) (Behavior t) Source # 
Instance details

Defined in Reflex.Class

Methods

accum :: (MonadHold t m, MonadFix m) => (a -> b -> a) -> a -> Event t b -> m (Behavior t a) Source #

accumM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t a) -> a -> Event t b -> m (Behavior t a) Source #

accumMaybe :: (MonadHold t m, MonadFix m) => (a -> b -> Maybe a) -> a -> Event t b -> m (Behavior t a) Source #

accumMaybeM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t (Maybe a)) -> a -> Event t b -> m (Behavior t a) Source #

mapAccum :: (MonadHold t m, MonadFix m) => (a -> b -> (a, c)) -> a -> Event t b -> m (Behavior t a, Event t c) Source #

mapAccumM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t (a, c)) -> a -> Event t b -> m (Behavior t a, Event t c) Source #

mapAccumMaybe :: (MonadHold t m, MonadFix m) => (a -> b -> (Maybe a, Maybe c)) -> a -> Event t b -> m (Behavior t a, Event t c) Source #

mapAccumMaybeM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t (Maybe a, Maybe c)) -> a -> Event t b -> m (Behavior t a, Event t c) Source #

Reflex t => Monad (Behavior t) Source # 
Instance details

Defined in Reflex.Class

Methods

(>>=) :: Behavior t a -> (a -> Behavior t b) -> Behavior t b #

(>>) :: Behavior t a -> Behavior t b -> Behavior t b #

return :: a -> Behavior t a #

fail :: String -> Behavior t a #

Reflex t => Functor (Behavior t) Source # 
Instance details

Defined in Reflex.Class

Methods

fmap :: (a -> b) -> Behavior t a -> Behavior t b #

(<$) :: a -> Behavior t b -> Behavior t a #

Reflex t => Applicative (Behavior t) Source # 
Instance details

Defined in Reflex.Class

Methods

pure :: a -> Behavior t a #

(<*>) :: Behavior t (a -> b) -> Behavior t a -> Behavior t b #

liftA2 :: (a -> b -> c) -> Behavior t a -> Behavior t b -> Behavior t c #

(*>) :: Behavior t a -> Behavior t b -> Behavior t b #

(<*) :: Behavior t a -> Behavior t b -> Behavior t a #

Reflex t => Apply (Behavior t) Source # 
Instance details

Defined in Reflex.Class

Methods

(<.>) :: Behavior t (a -> b) -> Behavior t a -> Behavior t b #

(.>) :: Behavior t a -> Behavior t b -> Behavior t b #

(<.) :: Behavior t a -> Behavior t b -> Behavior t a #

liftF2 :: (a -> b -> c) -> Behavior t a -> Behavior t b -> Behavior t c #

Reflex t => Bind (Behavior t) Source # 
Instance details

Defined in Reflex.Class

Methods

(>>-) :: Behavior t a -> (a -> Behavior t b) -> Behavior t b #

join :: Behavior t (Behavior t a) -> Behavior t a #

(Reflex t, Fractional a) => Fractional (Behavior t a) Source # 
Instance details

Defined in Reflex.Class

Methods

(/) :: Behavior t a -> Behavior t a -> Behavior t a #

recip :: Behavior t a -> Behavior t a #

fromRational :: Rational -> Behavior t a #

(Reflex t, Num a) => Num (Behavior t a) Source # 
Instance details

Defined in Reflex.Class

Methods

(+) :: Behavior t a -> Behavior t a -> Behavior t a #

(-) :: Behavior t a -> Behavior t a -> Behavior t a #

(*) :: Behavior t a -> Behavior t a -> Behavior t a #

negate :: Behavior t a -> Behavior t a #

abs :: Behavior t a -> Behavior t a #

signum :: Behavior t a -> Behavior t a #

fromInteger :: Integer -> Behavior t a #

(Reflex t, IsString a) => IsString (Behavior t a) Source # 
Instance details

Defined in Reflex.Class

Methods

fromString :: String -> Behavior t a #

(Reflex t, Semigroup a) => Semigroup (Behavior t a) Source # 
Instance details

Defined in Reflex.Class

Methods

(<>) :: Behavior t a -> Behavior t a -> Behavior t a #

sconcat :: NonEmpty (Behavior t a) -> Behavior t a #

stimes :: Integral b => b -> Behavior t a -> Behavior t a #

(Reflex t, Monoid a) => Monoid (Behavior t a) Source # 
Instance details

Defined in Reflex.Class

Methods

mempty :: Behavior t a #

mappend :: Behavior t a -> Behavior t a -> Behavior t a #

mconcat :: [Behavior t a] -> Behavior t a #

newtype Behavior (Pure t :: Type) a Source # 
Instance details

Defined in Reflex.Pure

newtype Behavior (Pure t :: Type) a = Behavior {}
newtype Behavior (SpiderTimeline x :: Type) a Source # 
Instance details

Defined in Reflex.Spider.Internal

newtype Behavior (ProfiledTimeline t :: Type) a Source # 
Instance details

Defined in Reflex.Profiled

data family Event t :: Type -> Type Source #

A stream of occurrences. During any given frame, an Event is either occurring or not occurring; if it is occurring, it will contain a value of the given type (its "occurrence type")

Instances
Reflex t => Accumulator (t :: k) (Event t) Source # 
Instance details

Defined in Reflex.Class

Methods

accum :: (MonadHold t m, MonadFix m) => (a -> b -> a) -> a -> Event t b -> m (Event t a) Source #

accumM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t a) -> a -> Event t b -> m (Event t a) Source #

accumMaybe :: (MonadHold t m, MonadFix m) => (a -> b -> Maybe a) -> a -> Event t b -> m (Event t a) Source #

accumMaybeM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t (Maybe a)) -> a -> Event t b -> m (Event t a) Source #

mapAccum :: (MonadHold t m, MonadFix m) => (a -> b -> (a, c)) -> a -> Event t b -> m (Event t a, Event t c) Source #

mapAccumM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t (a, c)) -> a -> Event t b -> m (Event t a, Event t c) Source #

mapAccumMaybe :: (MonadHold t m, MonadFix m) => (a -> b -> (Maybe a, Maybe c)) -> a -> Event t b -> m (Event t a, Event t c) Source #

mapAccumMaybeM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t (Maybe a, Maybe c)) -> a -> Event t b -> m (Event t a, Event t c) Source #

Reflex t => Functor (Event t) Source # 
Instance details

Defined in Reflex.Class

Methods

fmap :: (a -> b) -> Event t a -> Event t b #

(<$) :: a -> Event t b -> Event t a #

Reflex t => Apply (Event t) Source #

Event intersection. Only occurs when both events are co-incident.

Instance details

Defined in Reflex.Class

Methods

(<.>) :: Event t (a -> b) -> Event t a -> Event t b #

(.>) :: Event t a -> Event t b -> Event t b #

(<.) :: Event t a -> Event t b -> Event t a #

liftF2 :: (a -> b -> c) -> Event t a -> Event t b -> Event t c #

Reflex t => Semialign (Event t) Source # 
Instance details

Defined in Reflex.Class

Methods

align :: Event t a -> Event t b -> Event t (These a b) #

alignWith :: (These a b -> c) -> Event t a -> Event t b -> Event t c #

Reflex t => Align (Event t) Source # 
Instance details

Defined in Reflex.Class

Methods

nil :: Event t a #

Reflex t => Zip (Event t) Source # 
Instance details

Defined in Reflex.Class

Methods

zip :: Event t a -> Event t b -> Event t (a, b) #

zipWith :: (a -> b -> c) -> Event t a -> Event t b -> Event t c #

Reflex t => Unzip (Event t) Source # 
Instance details

Defined in Reflex.Class

Methods

unzipWith :: (c -> (a, b)) -> Event t c -> (Event t a, Event t b) #

unzip :: Event t (a, b) -> (Event t a, Event t b) #

Reflex t => Plus (Event t) Source #

Never: zero = never.

Instance details

Defined in Reflex.Class

Methods

zero :: Event t a #

Reflex t => Alt (Event t) Source #

Left-biased event union (prefers left event on simultaneous occurrence).

Instance details

Defined in Reflex.Class

Methods

(<!>) :: Event t a -> Event t a -> Event t a #

some :: Applicative (Event t) => Event t a -> Event t [a] #

many :: Applicative (Event t) => Event t a -> Event t [a] #

Reflex t => Bind (Event t) Source #

Event intersection (convenient interface to coincidence).

Instance details

Defined in Reflex.Class

Methods

(>>-) :: Event t a -> (a -> Event t b) -> Event t b #

join :: Event t (Event t a) -> Event t a #

Reflex t => Filterable (Event t) Source # 
Instance details

Defined in Reflex.Class

Methods

mapMaybe :: (a -> Maybe b) -> Event t a -> Event t b #

catMaybes :: Event t (Maybe a) -> Event t a #

filter :: (a -> Bool) -> Event t a -> Event t a #

Reflex t => FunctorMaybe (Event t) Source # 
Instance details

Defined in Reflex.Class

Methods

fmapMaybe :: (a -> Maybe b) -> Event t a -> Event t b Source #

(Semigroup a, Reflex t) => Semigroup (Event t a) Source # 
Instance details

Defined in Reflex.Class

Methods

(<>) :: Event t a -> Event t a -> Event t a #

sconcat :: NonEmpty (Event t a) -> Event t a #

stimes :: Integral b => b -> Event t a -> Event t a #

(Semigroup a, Reflex t) => Monoid (Event t a) Source # 
Instance details

Defined in Reflex.Class

Methods

mempty :: Event t a #

mappend :: Event t a -> Event t a -> Event t a #

mconcat :: [Event t a] -> Event t a #

newtype Event (Pure t :: Type) a Source # 
Instance details

Defined in Reflex.Pure

newtype Event (Pure t :: Type) a = Event {}
newtype Event (SpiderTimeline x :: Type) a Source # 
Instance details

Defined in Reflex.Spider.Internal

newtype Event (ProfiledTimeline t :: Type) a Source # 
Instance details

Defined in Reflex.Profiled

data family Dynamic t :: Type -> Type Source #

A container for a value that can change over time and allows notifications on changes. Basically a combination of a Behavior and an Event, with a rule that the Behavior will change if and only if the Event fires.

Instances
Reflex t => Accumulator (t :: k) (Dynamic t) Source # 
Instance details

Defined in Reflex.Class

Methods

accum :: (MonadHold t m, MonadFix m) => (a -> b -> a) -> a -> Event t b -> m (Dynamic t a) Source #

accumM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t a) -> a -> Event t b -> m (Dynamic t a) Source #

accumMaybe :: (MonadHold t m, MonadFix m) => (a -> b -> Maybe a) -> a -> Event t b -> m (Dynamic t a) Source #

accumMaybeM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t (Maybe a)) -> a -> Event t b -> m (Dynamic t a) Source #

mapAccum :: (MonadHold t m, MonadFix m) => (a -> b -> (a, c)) -> a -> Event t b -> m (Dynamic t a, Event t c) Source #

mapAccumM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t (a, c)) -> a -> Event t b -> m (Dynamic t a, Event t c) Source #

mapAccumMaybe :: (MonadHold t m, MonadFix m) => (a -> b -> (Maybe a, Maybe c)) -> a -> Event t b -> m (Dynamic t a, Event t c) Source #

mapAccumMaybeM :: (MonadHold t m, MonadFix m) => (a -> b -> PushM t (Maybe a, Maybe c)) -> a -> Event t b -> m (Dynamic t a, Event t c) Source #

Monad (Dynamic (Pure t)) Source # 
Instance details

Defined in Reflex.Pure

Methods

(>>=) :: Dynamic (Pure t) a -> (a -> Dynamic (Pure t) b) -> Dynamic (Pure t) b #

(>>) :: Dynamic (Pure t) a -> Dynamic (Pure t) b -> Dynamic (Pure t) b #

return :: a -> Dynamic (Pure t) a #

fail :: String -> Dynamic (Pure t) a #

HasSpiderTimeline x => Monad (Dynamic (SpiderTimeline x)) Source # 
Instance details

Defined in Reflex.Spider.Internal

Monad (Dynamic t) => Monad (Dynamic (ProfiledTimeline t)) Source # 
Instance details

Defined in Reflex.Profiled

Functor (Dynamic (Pure t)) Source # 
Instance details

Defined in Reflex.Pure

Methods

fmap :: (a -> b) -> Dynamic (Pure t) a -> Dynamic (Pure t) b #

(<$) :: a -> Dynamic (Pure t) b -> Dynamic (Pure t) a #

HasSpiderTimeline x => Functor (Dynamic (SpiderTimeline x)) Source # 
Instance details

Defined in Reflex.Spider.Internal

Methods

fmap :: (a -> b) -> Dynamic (SpiderTimeline x) a -> Dynamic (SpiderTimeline x) b #

(<$) :: a -> Dynamic (SpiderTimeline x) b -> Dynamic (SpiderTimeline x) a #

Functor (Dynamic t) => Functor (Dynamic (ProfiledTimeline t)) Source # 
Instance details

Defined in Reflex.Profiled

Methods

fmap :: (a -> b) -> Dynamic (ProfiledTimeline t) a -> Dynamic (ProfiledTimeline t) b #

(<$) :: a -> Dynamic (ProfiledTimeline t) b -> Dynamic (ProfiledTimeline t) a #

Applicative (Dynamic (Pure t)) Source # 
Instance details

Defined in Reflex.Pure

Methods

pure :: a -> Dynamic (Pure t) a #

(<*>) :: Dynamic (Pure t) (a -> b) -> Dynamic (Pure t) a -> Dynamic (Pure t) b #

liftA2 :: (a -> b -> c) -> Dynamic (Pure t) a -> Dynamic (Pure t) b -> Dynamic (Pure t) c #

(*>) :: Dynamic (Pure t) a -> Dynamic (Pure t) b -> Dynamic (Pure t) b #

(<*) :: Dynamic (Pure t) a -> Dynamic (Pure t) b -> Dynamic (Pure t) a #

HasSpiderTimeline x => Applicative (Dynamic (SpiderTimeline x)) Source # 
Instance details

Defined in Reflex.Spider.Internal

Applicative (Dynamic t) => Applicative (Dynamic (ProfiledTimeline t)) Source # 
Instance details

Defined in Reflex.Profiled

(Num a, Reflex t) => Num (Dynamic t a) Source # 
Instance details

Defined in Reflex.Class

Methods

(+) :: Dynamic t a -> Dynamic t a -> Dynamic t a #

(-) :: Dynamic t a -> Dynamic t a -> Dynamic t a #

(*) :: Dynamic t a -> Dynamic t a -> Dynamic t a #

negate :: Dynamic t a -> Dynamic t a #

abs :: Dynamic t a -> Dynamic t a #

signum :: Dynamic t a -> Dynamic t a #

fromInteger :: Integer -> Dynamic t a #

(Reflex t, IsString a) => IsString (Dynamic t a) Source # 
Instance details

Defined in Reflex.Class

Methods

fromString :: String -> Dynamic t a #

(Reflex t, Semigroup a) => Semigroup (Dynamic t a) Source # 
Instance details

Defined in Reflex.Class

Methods

(<>) :: Dynamic t a -> Dynamic t a -> Dynamic t a #

sconcat :: NonEmpty (Dynamic t a) -> Dynamic t a #

stimes :: Integral b => b -> Dynamic t a -> Dynamic t a #

(Reflex t, Monoid a) => Monoid (Dynamic t a) Source # 
Instance details

Defined in Reflex.Class

Methods

mempty :: Dynamic t a #

mappend :: Dynamic t a -> Dynamic t a -> Dynamic t a #

mconcat :: [Dynamic t a] -> Dynamic t a #

(Reflex t, Default a) => Default (Dynamic t a) Source # 
Instance details

Defined in Reflex.Class

Methods

def :: Dynamic t a #

newtype Dynamic (Pure t :: Type) a Source # 
Instance details

Defined in Reflex.Pure

newtype Dynamic (Pure t :: Type) a = Dynamic {}
newtype Dynamic (SpiderTimeline x :: Type) a Source # 
Instance details

Defined in Reflex.Spider.Internal

newtype Dynamic (ProfiledTimeline t :: Type) a Source # 
Instance details

Defined in Reflex.Profiled

data family Incremental t :: Type -> Type Source #

An Incremental is a more general form of a Dynamic. Instead of always fully replacing the value, only parts of it can be patched. This is only needed for performance critical code via mergeIncremental to make small changes to large values.

Instances
newtype Incremental (Pure t :: Type) p Source # 
Instance details

Defined in Reflex.Pure

newtype Incremental (Pure t :: Type) p = Incremental {}
newtype Incremental (SpiderTimeline x :: Type) p Source # 
Instance details

Defined in Reflex.Spider.Internal

newtype Incremental (ProfiledTimeline t :: Type) p Source # 
Instance details

Defined in Reflex.Profiled

Orphan instances

MonadSample (Pure t :: Type) ((->) t :: Type -> Type) Source # 
Instance details

Methods

sample :: Behavior (Pure t) a -> t -> a Source #