{-# LANGUAGE CPP #-}
{-# LANGUAGE EmptyDataDecls #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE InstanceSigs #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE PolyKinds #-}
#ifdef USE_REFLEX_OPTIMIZER
{-# OPTIONS_GHC -fplugin=Reflex.Optimizer #-}
#endif
{-# OPTIONS_GHC -fno-warn-orphans #-}
module Reflex.Pure
( Pure
, Behavior (..)
, Event (..)
, Dynamic (..)
, Incremental (..)
) where
import Control.Monad
import Data.Dependent.Map (DMap)
import Data.GADT.Compare (GCompare)
import qualified Data.Dependent.Map as DMap
import Data.IntMap (IntMap)
import qualified Data.IntMap as IntMap
import Data.Maybe
import Data.MemoTrie
import Data.Monoid
import Data.Type.Coercion
import Reflex.Class
import Data.Kind (Type)
data Pure (t :: Type)
instance (Enum t, HasTrie t, Ord t) => Reflex (Pure t) where
newtype Behavior (Pure t) a = Behavior { Behavior (Pure t) a -> t -> a
unBehavior :: t -> a }
newtype Event (Pure t) a = Event { Event (Pure t) a -> t -> Maybe a
unEvent :: t -> Maybe a }
newtype Dynamic (Pure t) a = Dynamic { Dynamic (Pure t) a -> t -> (a, Maybe a)
unDynamic :: t -> (a, Maybe a) }
newtype Incremental (Pure t) p = Incremental { Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
unIncremental :: t -> (PatchTarget p, Maybe p) }
type PushM (Pure t) = (->) t
type PullM (Pure t) = (->) t
never :: Event (Pure t) a
never :: Event (Pure t) a
never = (t -> Maybe a) -> Event (Pure t) a
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe a) -> Event (Pure t) a)
-> (t -> Maybe a) -> Event (Pure t) a
forall a b. (a -> b) -> a -> b
$ \t
_ -> Maybe a
forall a. Maybe a
Nothing
constant :: a -> Behavior (Pure t) a
constant :: a -> Behavior (Pure t) a
constant a
x = (t -> a) -> Behavior (Pure t) a
forall t a. (t -> a) -> Behavior (Pure t) a
Behavior ((t -> a) -> Behavior (Pure t) a)
-> (t -> a) -> Behavior (Pure t) a
forall a b. (a -> b) -> a -> b
$ \t
_ -> a
x
push :: (a -> PushM (Pure t) (Maybe b)) -> Event (Pure t) a -> Event (Pure t) b
push :: (a -> PushM (Pure t) (Maybe b))
-> Event (Pure t) a -> Event (Pure t) b
push a -> PushM (Pure t) (Maybe b)
f Event (Pure t) a
e = (t -> Maybe b) -> Event (Pure t) b
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe b) -> Event (Pure t) b)
-> (t -> Maybe b) -> Event (Pure t) b
forall a b. (a -> b) -> a -> b
$ (t -> Maybe b) -> t -> Maybe b
forall t a. HasTrie t => (t -> a) -> t -> a
memo ((t -> Maybe b) -> t -> Maybe b) -> (t -> Maybe b) -> t -> Maybe b
forall a b. (a -> b) -> a -> b
$ \t
t -> Event (Pure t) a -> t -> Maybe a
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) a
e t
t Maybe a -> (a -> Maybe b) -> Maybe b
forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
>>= \a
o -> a -> PushM (Pure t) (Maybe b)
a -> t -> Maybe b
f a
o t
t
pushCheap :: (a -> PushM (Pure t) (Maybe b)) -> Event (Pure t) a -> Event (Pure t) b
pushCheap :: (a -> PushM (Pure t) (Maybe b))
-> Event (Pure t) a -> Event (Pure t) b
pushCheap = (a -> PushM (Pure t) (Maybe b))
-> Event (Pure t) a -> Event (Pure t) b
forall k (t :: k) a b.
Reflex t =>
(a -> PushM t (Maybe b)) -> Event t a -> Event t b
push
pull :: PullM (Pure t) a -> Behavior (Pure t) a
pull :: PullM (Pure t) a -> Behavior (Pure t) a
pull = (t -> a) -> Behavior (Pure t) a
forall t a. (t -> a) -> Behavior (Pure t) a
Behavior ((t -> a) -> Behavior (Pure t) a)
-> ((t -> a) -> t -> a) -> (t -> a) -> Behavior (Pure t) a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (t -> a) -> t -> a
forall t a. HasTrie t => (t -> a) -> t -> a
memo
mergeG :: (forall (a :: k). q a -> Event (Pure t) (v a))
-> DMap k q -> Event (Pure t) (DMap k v)
mergeG forall (a :: k). q a -> Event (Pure t) (v a)
nt DMap k q
events = (t -> Maybe (DMap k v)) -> Event (Pure t) (DMap k v)
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe (DMap k v)) -> Event (Pure t) (DMap k v))
-> (t -> Maybe (DMap k v)) -> Event (Pure t) (DMap k v)
forall a b. (a -> b) -> a -> b
$ (t -> Maybe (DMap k v)) -> t -> Maybe (DMap k v)
forall t a. HasTrie t => (t -> a) -> t -> a
memo ((t -> Maybe (DMap k v)) -> t -> Maybe (DMap k v))
-> (t -> Maybe (DMap k v)) -> t -> Maybe (DMap k v)
forall a b. (a -> b) -> a -> b
$ \t
t ->
let currentOccurrences :: DMap k v
currentOccurrences = (forall (v :: k). k v -> q v -> Maybe (v v))
-> DMap k q -> DMap k v
forall k1 (k2 :: k1 -> *) (f :: k1 -> *) (g :: k1 -> *).
GCompare k2 =>
(forall (v :: k1). k2 v -> f v -> Maybe (g v))
-> DMap k2 f -> DMap k2 g
DMap.mapMaybeWithKey (\k v
_ q v
q -> case q v -> Event (Pure t) (v v)
forall (a :: k). q a -> Event (Pure t) (v a)
nt q v
q of Event a -> t -> Maybe (v v)
a t
t) DMap k q
events
in if DMap k v -> Bool
forall k1 (k2 :: k1 -> *) (f :: k1 -> *). DMap k2 f -> Bool
DMap.null DMap k v
currentOccurrences
then Maybe (DMap k v)
forall a. Maybe a
Nothing
else DMap k v -> Maybe (DMap k v)
forall a. a -> Maybe a
Just DMap k v
currentOccurrences
fanG :: Event (Pure t) (DMap k v) -> EventSelectorG (Pure t) k v
fanG Event (Pure t) (DMap k v)
e = (forall (a :: k). k a -> Event (Pure t) (v a))
-> EventSelectorG (Pure t) k v
forall k k (t :: k) (k :: k -> *) (v :: k -> *).
(forall (a :: k). k a -> Event t (v a)) -> EventSelectorG t k v
EventSelectorG ((forall (a :: k). k a -> Event (Pure t) (v a))
-> EventSelectorG (Pure t) k v)
-> (forall (a :: k). k a -> Event (Pure t) (v a))
-> EventSelectorG (Pure t) k v
forall a b. (a -> b) -> a -> b
$ \k a
k -> (t -> Maybe (v a)) -> Event (Pure t) (v a)
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe (v a)) -> Event (Pure t) (v a))
-> (t -> Maybe (v a)) -> Event (Pure t) (v a)
forall a b. (a -> b) -> a -> b
$ \t
t -> Event (Pure t) (DMap k v) -> t -> Maybe (DMap k v)
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) (DMap k v)
e t
t Maybe (DMap k v) -> (DMap k v -> Maybe (v a)) -> Maybe (v a)
forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
>>= k a -> DMap k v -> Maybe (v a)
forall k1 (k2 :: k1 -> *) (f :: k1 -> *) (v :: k1).
GCompare k2 =>
k2 v -> DMap k2 f -> Maybe (f v)
DMap.lookup k a
k
switch :: Behavior (Pure t) (Event (Pure t) a) -> Event (Pure t) a
switch :: Behavior (Pure t) (Event (Pure t) a) -> Event (Pure t) a
switch Behavior (Pure t) (Event (Pure t) a)
b = (t -> Maybe a) -> Event (Pure t) a
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe a) -> Event (Pure t) a)
-> (t -> Maybe a) -> Event (Pure t) a
forall a b. (a -> b) -> a -> b
$ (t -> Maybe a) -> t -> Maybe a
forall t a. HasTrie t => (t -> a) -> t -> a
memo ((t -> Maybe a) -> t -> Maybe a) -> (t -> Maybe a) -> t -> Maybe a
forall a b. (a -> b) -> a -> b
$ \t
t -> Event (Pure t) a -> t -> Maybe a
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent (Behavior (Pure t) (Event (Pure t) a) -> t -> Event (Pure t) a
forall t a. Behavior (Pure t) a -> t -> a
unBehavior Behavior (Pure t) (Event (Pure t) a)
b t
t) t
t
coincidence :: Event (Pure t) (Event (Pure t) a) -> Event (Pure t) a
coincidence :: Event (Pure t) (Event (Pure t) a) -> Event (Pure t) a
coincidence Event (Pure t) (Event (Pure t) a)
e = (t -> Maybe a) -> Event (Pure t) a
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe a) -> Event (Pure t) a)
-> (t -> Maybe a) -> Event (Pure t) a
forall a b. (a -> b) -> a -> b
$ (t -> Maybe a) -> t -> Maybe a
forall t a. HasTrie t => (t -> a) -> t -> a
memo ((t -> Maybe a) -> t -> Maybe a) -> (t -> Maybe a) -> t -> Maybe a
forall a b. (a -> b) -> a -> b
$ \t
t -> Event (Pure t) (Event (Pure t) a) -> t -> Maybe (Event (Pure t) a)
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) (Event (Pure t) a)
e t
t Maybe (Event (Pure t) a)
-> (Event (Pure t) a -> Maybe a) -> Maybe a
forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
>>= \Event (Pure t) a
o -> Event (Pure t) a -> t -> Maybe a
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) a
o t
t
current :: Dynamic (Pure t) a -> Behavior (Pure t) a
current :: Dynamic (Pure t) a -> Behavior (Pure t) a
current Dynamic (Pure t) a
d = (t -> a) -> Behavior (Pure t) a
forall t a. (t -> a) -> Behavior (Pure t) a
Behavior ((t -> a) -> Behavior (Pure t) a)
-> (t -> a) -> Behavior (Pure t) a
forall a b. (a -> b) -> a -> b
$ \t
t -> (a, Maybe a) -> a
forall a b. (a, b) -> a
fst ((a, Maybe a) -> a) -> (a, Maybe a) -> a
forall a b. (a -> b) -> a -> b
$ Dynamic (Pure t) a -> t -> (a, Maybe a)
forall t a. Dynamic (Pure t) a -> t -> (a, Maybe a)
unDynamic Dynamic (Pure t) a
d t
t
updated :: Dynamic (Pure t) a -> Event (Pure t) a
updated :: Dynamic (Pure t) a -> Event (Pure t) a
updated Dynamic (Pure t) a
d = (t -> Maybe a) -> Event (Pure t) a
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe a) -> Event (Pure t) a)
-> (t -> Maybe a) -> Event (Pure t) a
forall a b. (a -> b) -> a -> b
$ \t
t -> (a, Maybe a) -> Maybe a
forall a b. (a, b) -> b
snd ((a, Maybe a) -> Maybe a) -> (a, Maybe a) -> Maybe a
forall a b. (a -> b) -> a -> b
$ Dynamic (Pure t) a -> t -> (a, Maybe a)
forall t a. Dynamic (Pure t) a -> t -> (a, Maybe a)
unDynamic Dynamic (Pure t) a
d t
t
unsafeBuildDynamic :: PullM (Pure t) a -> Event (Pure t) a -> Dynamic (Pure t) a
unsafeBuildDynamic :: PullM (Pure t) a -> Event (Pure t) a -> Dynamic (Pure t) a
unsafeBuildDynamic PullM (Pure t) a
readV0 Event (Pure t) a
v' = (t -> (a, Maybe a)) -> Dynamic (Pure t) a
forall t a. (t -> (a, Maybe a)) -> Dynamic (Pure t) a
Dynamic ((t -> (a, Maybe a)) -> Dynamic (Pure t) a)
-> (t -> (a, Maybe a)) -> Dynamic (Pure t) a
forall a b. (a -> b) -> a -> b
$ \t
t -> (PullM (Pure t) a
t -> a
readV0 t
t, Event (Pure t) a -> t -> Maybe a
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) a
v' t
t)
unsafeBuildIncremental :: PullM (Pure t) (PatchTarget p)
-> Event (Pure t) p -> Incremental (Pure t) p
unsafeBuildIncremental PullM (Pure t) (PatchTarget p)
readV0 Event (Pure t) p
p = (t -> (PatchTarget p, Maybe p)) -> Incremental (Pure t) p
forall t p.
(t -> (PatchTarget p, Maybe p)) -> Incremental (Pure t) p
Incremental ((t -> (PatchTarget p, Maybe p)) -> Incremental (Pure t) p)
-> (t -> (PatchTarget p, Maybe p)) -> Incremental (Pure t) p
forall a b. (a -> b) -> a -> b
$ \t
t -> (PullM (Pure t) (PatchTarget p)
t -> PatchTarget p
readV0 t
t, Event (Pure t) p -> t -> Maybe p
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) p
p t
t)
mergeIncrementalG :: (forall (a :: k). q a -> Event (Pure t) (v a))
-> Incremental (Pure t) (PatchDMap k q)
-> Event (Pure t) (DMap k v)
mergeIncrementalG = (forall (a :: k). q a -> Event (Pure t) (v a))
-> Incremental (Pure t) (PatchDMap k q)
-> Event (Pure t) (DMap k v)
forall k p (k :: k -> *) (q :: k -> *) t (v :: k -> *).
(PatchTarget p ~ DMap k q, GCompare k) =>
(forall (a :: k). q a -> Event (Pure t) (v a))
-> Incremental (Pure t) p -> Event (Pure t) (DMap k v)
mergeIncrementalImpl
mergeIncrementalWithMoveG :: (forall (a :: k). q a -> Event (Pure t) (v a))
-> Incremental (Pure t) (PatchDMapWithMove k q)
-> Event (Pure t) (DMap k v)
mergeIncrementalWithMoveG = (forall (a :: k). q a -> Event (Pure t) (v a))
-> Incremental (Pure t) (PatchDMapWithMove k q)
-> Event (Pure t) (DMap k v)
forall k p (k :: k -> *) (q :: k -> *) t (v :: k -> *).
(PatchTarget p ~ DMap k q, GCompare k) =>
(forall (a :: k). q a -> Event (Pure t) (v a))
-> Incremental (Pure t) p -> Event (Pure t) (DMap k v)
mergeIncrementalImpl
currentIncremental :: Incremental (Pure t) p -> Behavior (Pure t) (PatchTarget p)
currentIncremental Incremental (Pure t) p
i = (t -> PatchTarget p) -> Behavior (Pure t) (PatchTarget p)
forall t a. (t -> a) -> Behavior (Pure t) a
Behavior ((t -> PatchTarget p) -> Behavior (Pure t) (PatchTarget p))
-> (t -> PatchTarget p) -> Behavior (Pure t) (PatchTarget p)
forall a b. (a -> b) -> a -> b
$ \t
t -> (PatchTarget p, Maybe p) -> PatchTarget p
forall a b. (a, b) -> a
fst ((PatchTarget p, Maybe p) -> PatchTarget p)
-> (PatchTarget p, Maybe p) -> PatchTarget p
forall a b. (a -> b) -> a -> b
$ Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
forall t p. Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
unIncremental Incremental (Pure t) p
i t
t
updatedIncremental :: Incremental (Pure t) p -> Event (Pure t) p
updatedIncremental Incremental (Pure t) p
i = (t -> Maybe p) -> Event (Pure t) p
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe p) -> Event (Pure t) p)
-> (t -> Maybe p) -> Event (Pure t) p
forall a b. (a -> b) -> a -> b
$ \t
t -> (PatchTarget p, Maybe p) -> Maybe p
forall a b. (a, b) -> b
snd ((PatchTarget p, Maybe p) -> Maybe p)
-> (PatchTarget p, Maybe p) -> Maybe p
forall a b. (a -> b) -> a -> b
$ Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
forall t p. Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
unIncremental Incremental (Pure t) p
i t
t
incrementalToDynamic :: Incremental (Pure t) p -> Dynamic (Pure t) (PatchTarget p)
incrementalToDynamic Incremental (Pure t) p
i = (t -> (PatchTarget p, Maybe (PatchTarget p)))
-> Dynamic (Pure t) (PatchTarget p)
forall t a. (t -> (a, Maybe a)) -> Dynamic (Pure t) a
Dynamic ((t -> (PatchTarget p, Maybe (PatchTarget p)))
-> Dynamic (Pure t) (PatchTarget p))
-> (t -> (PatchTarget p, Maybe (PatchTarget p)))
-> Dynamic (Pure t) (PatchTarget p)
forall a b. (a -> b) -> a -> b
$ \t
t ->
let (PatchTarget p
old, Maybe p
mPatch) = Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
forall t p. Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
unIncremental Incremental (Pure t) p
i t
t
e :: Maybe (PatchTarget p)
e = case Maybe p
mPatch of
Maybe p
Nothing -> Maybe (PatchTarget p)
forall a. Maybe a
Nothing
Just p
patch -> p -> PatchTarget p -> Maybe (PatchTarget p)
forall p. Patch p => p -> PatchTarget p -> Maybe (PatchTarget p)
apply p
patch PatchTarget p
old
in (PatchTarget p
old, Maybe (PatchTarget p)
e)
behaviorCoercion :: Coercion a b
-> Coercion (Behavior (Pure t) a) (Behavior (Pure t) b)
behaviorCoercion Coercion a b
Coercion = Coercion (Behavior (Pure t) a) (Behavior (Pure t) b)
forall k (a :: k) (b :: k). Coercible a b => Coercion a b
Coercion
eventCoercion :: Coercion a b -> Coercion (Event (Pure t) a) (Event (Pure t) b)
eventCoercion Coercion a b
Coercion = Coercion (Event (Pure t) a) (Event (Pure t) b)
forall k (a :: k) (b :: k). Coercible a b => Coercion a b
Coercion
dynamicCoercion :: Coercion a b -> Coercion (Dynamic (Pure t) a) (Dynamic (Pure t) b)
dynamicCoercion Coercion a b
Coercion = Coercion (Dynamic (Pure t) a) (Dynamic (Pure t) b)
forall k (a :: k) (b :: k). Coercible a b => Coercion a b
Coercion
incrementalCoercion :: Coercion (PatchTarget a) (PatchTarget b)
-> Coercion a b
-> Coercion (Incremental (Pure t) a) (Incremental (Pure t) b)
incrementalCoercion Coercion (PatchTarget a) (PatchTarget b)
Coercion Coercion a b
Coercion = Coercion (Incremental (Pure t) a) (Incremental (Pure t) b)
forall k (a :: k) (b :: k). Coercible a b => Coercion a b
Coercion
fanInt :: Event (Pure t) (IntMap a) -> EventSelectorInt (Pure t) a
fanInt Event (Pure t) (IntMap a)
e = (Int -> Event (Pure t) a) -> EventSelectorInt (Pure t) a
forall k (t :: k) a. (Int -> Event t a) -> EventSelectorInt t a
EventSelectorInt ((Int -> Event (Pure t) a) -> EventSelectorInt (Pure t) a)
-> (Int -> Event (Pure t) a) -> EventSelectorInt (Pure t) a
forall a b. (a -> b) -> a -> b
$ \Int
k -> (t -> Maybe a) -> Event (Pure t) a
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe a) -> Event (Pure t) a)
-> (t -> Maybe a) -> Event (Pure t) a
forall a b. (a -> b) -> a -> b
$ \t
t -> Event (Pure t) (IntMap a) -> t -> Maybe (IntMap a)
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) (IntMap a)
e t
t Maybe (IntMap a) -> (IntMap a -> Maybe a) -> Maybe a
forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
>>= Int -> IntMap a -> Maybe a
forall a. Int -> IntMap a -> Maybe a
IntMap.lookup Int
k
mergeIntIncremental :: Incremental (Pure t) (PatchIntMap (Event (Pure t) a))
-> Event (Pure t) (IntMap a)
mergeIntIncremental = Incremental (Pure t) (PatchIntMap (Event (Pure t) a))
-> Event (Pure t) (IntMap a)
forall p t a.
(PatchTarget p ~ IntMap (Event (Pure t) a)) =>
Incremental (Pure t) p -> Event (Pure t) (IntMap a)
mergeIntIncrementalImpl
mergeIncrementalImpl :: (PatchTarget p ~ DMap k q, GCompare k)
=> (forall a. q a -> Event (Pure t) (v a))
-> Incremental (Pure t) p -> Event (Pure t) (DMap k v)
mergeIncrementalImpl :: (forall (a :: k). q a -> Event (Pure t) (v a))
-> Incremental (Pure t) p -> Event (Pure t) (DMap k v)
mergeIncrementalImpl forall (a :: k). q a -> Event (Pure t) (v a)
nt Incremental (Pure t) p
i = (t -> Maybe (DMap k v)) -> Event (Pure t) (DMap k v)
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe (DMap k v)) -> Event (Pure t) (DMap k v))
-> (t -> Maybe (DMap k v)) -> Event (Pure t) (DMap k v)
forall a b. (a -> b) -> a -> b
$ \t
t ->
let results :: DMap k v
results = (forall (v :: k). k v -> q v -> Maybe (v v))
-> DMap k q -> DMap k v
forall k1 (k2 :: k1 -> *) (f :: k1 -> *) (g :: k1 -> *).
GCompare k2 =>
(forall (v :: k1). k2 v -> f v -> Maybe (g v))
-> DMap k2 f -> DMap k2 g
DMap.mapMaybeWithKey (\k v
_ q v
q -> case q v -> Event (Pure t) (v v)
forall (a :: k). q a -> Event (Pure t) (v a)
nt q v
q of Event e -> t -> Maybe (v v)
e t
t) (DMap k q -> DMap k v) -> DMap k q -> DMap k v
forall a b. (a -> b) -> a -> b
$ (DMap k q, Maybe p) -> DMap k q
forall a b. (a, b) -> a
fst ((DMap k q, Maybe p) -> DMap k q)
-> (DMap k q, Maybe p) -> DMap k q
forall a b. (a -> b) -> a -> b
$ Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
forall t p. Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
unIncremental Incremental (Pure t) p
i t
t
in if DMap k v -> Bool
forall k1 (k2 :: k1 -> *) (f :: k1 -> *). DMap k2 f -> Bool
DMap.null DMap k v
results
then Maybe (DMap k v)
forall a. Maybe a
Nothing
else DMap k v -> Maybe (DMap k v)
forall a. a -> Maybe a
Just DMap k v
results
mergeIntIncrementalImpl :: (PatchTarget p ~ IntMap (Event (Pure t) a)) => Incremental (Pure t) p -> Event (Pure t) (IntMap a)
mergeIntIncrementalImpl :: Incremental (Pure t) p -> Event (Pure t) (IntMap a)
mergeIntIncrementalImpl Incremental (Pure t) p
i = (t -> Maybe (IntMap a)) -> Event (Pure t) (IntMap a)
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe (IntMap a)) -> Event (Pure t) (IntMap a))
-> (t -> Maybe (IntMap a)) -> Event (Pure t) (IntMap a)
forall a b. (a -> b) -> a -> b
$ \t
t ->
let results :: IntMap a
results = (Int -> Event (Pure t) a -> Maybe a)
-> IntMap (Event (Pure t) a) -> IntMap a
forall a b. (Int -> a -> Maybe b) -> IntMap a -> IntMap b
IntMap.mapMaybeWithKey (\Int
_ (Event e) -> t -> Maybe a
e t
t) (IntMap (Event (Pure t) a) -> IntMap a)
-> IntMap (Event (Pure t) a) -> IntMap a
forall a b. (a -> b) -> a -> b
$ (IntMap (Event (Pure t) a), Maybe p) -> IntMap (Event (Pure t) a)
forall a b. (a, b) -> a
fst ((IntMap (Event (Pure t) a), Maybe p) -> IntMap (Event (Pure t) a))
-> (IntMap (Event (Pure t) a), Maybe p)
-> IntMap (Event (Pure t) a)
forall a b. (a -> b) -> a -> b
$ Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
forall t p. Incremental (Pure t) p -> t -> (PatchTarget p, Maybe p)
unIncremental Incremental (Pure t) p
i t
t
in if IntMap a -> Bool
forall a. IntMap a -> Bool
IntMap.null IntMap a
results
then Maybe (IntMap a)
forall a. Maybe a
Nothing
else IntMap a -> Maybe (IntMap a)
forall a. a -> Maybe a
Just IntMap a
results
instance Functor (Dynamic (Pure t)) where
fmap :: (a -> b) -> Dynamic (Pure t) a -> Dynamic (Pure t) b
fmap a -> b
f Dynamic (Pure t) a
d = (t -> (b, Maybe b)) -> Dynamic (Pure t) b
forall t a. (t -> (a, Maybe a)) -> Dynamic (Pure t) a
Dynamic ((t -> (b, Maybe b)) -> Dynamic (Pure t) b)
-> (t -> (b, Maybe b)) -> Dynamic (Pure t) b
forall a b. (a -> b) -> a -> b
$ \t
t -> let (a
cur, Maybe a
upd) = Dynamic (Pure t) a -> t -> (a, Maybe a)
forall t a. Dynamic (Pure t) a -> t -> (a, Maybe a)
unDynamic Dynamic (Pure t) a
d t
t
in (a -> b
f a
cur, (a -> b) -> Maybe a -> Maybe b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap a -> b
f Maybe a
upd)
instance Applicative (Dynamic (Pure t)) where
pure :: a -> Dynamic (Pure t) a
pure a
a = (t -> (a, Maybe a)) -> Dynamic (Pure t) a
forall t a. (t -> (a, Maybe a)) -> Dynamic (Pure t) a
Dynamic ((t -> (a, Maybe a)) -> Dynamic (Pure t) a)
-> (t -> (a, Maybe a)) -> Dynamic (Pure t) a
forall a b. (a -> b) -> a -> b
$ \t
_ -> (a
a, Maybe a
forall a. Maybe a
Nothing)
<*> :: Dynamic (Pure t) (a -> b)
-> Dynamic (Pure t) a -> Dynamic (Pure t) b
(<*>) = Dynamic (Pure t) (a -> b)
-> Dynamic (Pure t) a -> Dynamic (Pure t) b
forall (m :: * -> *) a b. Monad m => m (a -> b) -> m a -> m b
ap
instance Monad (Dynamic (Pure t)) where
return :: a -> Dynamic (Pure t) a
return = a -> Dynamic (Pure t) a
forall (f :: * -> *) a. Applicative f => a -> f a
pure
(Dynamic (Pure t) a
x :: Dynamic (Pure t) a) >>= :: Dynamic (Pure t) a
-> (a -> Dynamic (Pure t) b) -> Dynamic (Pure t) b
>>= (a -> Dynamic (Pure t) b
f :: a -> Dynamic (Pure t) b) = (t -> (b, Maybe b)) -> Dynamic (Pure t) b
forall t a. (t -> (a, Maybe a)) -> Dynamic (Pure t) a
Dynamic ((t -> (b, Maybe b)) -> Dynamic (Pure t) b)
-> (t -> (b, Maybe b)) -> Dynamic (Pure t) b
forall a b. (a -> b) -> a -> b
$ \t
t ->
let (a
curX :: a, Maybe a
updX :: Maybe a) = Dynamic (Pure t) a -> t -> (a, Maybe a)
forall t a. Dynamic (Pure t) a -> t -> (a, Maybe a)
unDynamic Dynamic (Pure t) a
x t
t
(b
cur :: b, Maybe b
updOuter :: Maybe b) = Dynamic (Pure t) b -> t -> (b, Maybe b)
forall t a. Dynamic (Pure t) a -> t -> (a, Maybe a)
unDynamic (a -> Dynamic (Pure t) b
f a
curX) t
t
(Maybe b
updInner :: Maybe b, Maybe b
updBoth :: Maybe b) = case Maybe a
updX of
Maybe a
Nothing -> (Maybe b
forall a. Maybe a
Nothing, Maybe b
forall a. Maybe a
Nothing)
Just a
nextX -> let (b
c, Maybe b
u) = Dynamic (Pure t) b -> t -> (b, Maybe b)
forall t a. Dynamic (Pure t) a -> t -> (a, Maybe a)
unDynamic (a -> Dynamic (Pure t) b
f a
nextX) t
t
in (b -> Maybe b
forall a. a -> Maybe a
Just b
c, Maybe b
u)
in (b
cur, First b -> Maybe b
forall a. First a -> Maybe a
getFirst (First b -> Maybe b) -> First b -> Maybe b
forall a b. (a -> b) -> a -> b
$ [First b] -> First b
forall a. Monoid a => [a] -> a
mconcat ([First b] -> First b) -> [First b] -> First b
forall a b. (a -> b) -> a -> b
$ (Maybe b -> First b) -> [Maybe b] -> [First b]
forall a b. (a -> b) -> [a] -> [b]
map Maybe b -> First b
forall a. Maybe a -> First a
First [Maybe b
updBoth, Maybe b
updOuter, Maybe b
updInner])
instance MonadSample (Pure t) ((->) t) where
sample :: Behavior (Pure t) a -> (t -> a)
sample :: Behavior (Pure t) a -> t -> a
sample = Behavior (Pure t) a -> t -> a
forall t a. Behavior (Pure t) a -> t -> a
unBehavior
instance (Enum t, HasTrie t, Ord t) => MonadHold (Pure t) ((->) t) where
hold :: a -> Event (Pure t) a -> t -> Behavior (Pure t) a
hold :: a -> Event (Pure t) a -> t -> Behavior (Pure t) a
hold a
initialValue Event (Pure t) a
e t
initialTime = (t -> a) -> Behavior (Pure t) a
forall t a. (t -> a) -> Behavior (Pure t) a
Behavior t -> a
f
where f :: t -> a
f = (t -> a) -> t -> a
forall t a. HasTrie t => (t -> a) -> t -> a
memo ((t -> a) -> t -> a) -> (t -> a) -> t -> a
forall a b. (a -> b) -> a -> b
$ \t
sampleTime ->
if t
sampleTime t -> t -> Bool
forall a. Ord a => a -> a -> Bool
<= t
initialTime
then a
initialValue
else let lastTime :: t
lastTime = t -> t
forall a. Enum a => a -> a
pred t
sampleTime
in a -> Maybe a -> a
forall a. a -> Maybe a -> a
fromMaybe (t -> a
f t
lastTime) (Maybe a -> a) -> Maybe a -> a
forall a b. (a -> b) -> a -> b
$ Event (Pure t) a -> t -> Maybe a
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) a
e t
lastTime
holdDyn :: a -> Event (Pure t) a -> t -> Dynamic (Pure t) a
holdDyn a
v0 = PushM (Pure t) a -> Event (Pure t) a -> t -> Dynamic (Pure t) a
forall k (t :: k) (m :: * -> *) a.
MonadHold t m =>
PushM t a -> Event t a -> m (Dynamic t a)
buildDynamic (a -> t -> a
forall (m :: * -> *) a. Monad m => a -> m a
return a
v0)
buildDynamic :: (t -> a) -> Event (Pure t) a -> t -> Dynamic (Pure t) a
buildDynamic :: (t -> a) -> Event (Pure t) a -> t -> Dynamic (Pure t) a
buildDynamic t -> a
initialValue Event (Pure t) a
e t
initialTime =
let Behavior f = a -> Event (Pure t) a -> t -> Behavior (Pure t) a
forall k (t :: k) (m :: * -> *) a.
MonadHold t m =>
a -> Event t a -> m (Behavior t a)
hold (t -> a
initialValue t
initialTime) Event (Pure t) a
e t
initialTime
in (t -> (a, Maybe a)) -> Dynamic (Pure t) a
forall t a. (t -> (a, Maybe a)) -> Dynamic (Pure t) a
Dynamic ((t -> (a, Maybe a)) -> Dynamic (Pure t) a)
-> (t -> (a, Maybe a)) -> Dynamic (Pure t) a
forall a b. (a -> b) -> a -> b
$ \t
t -> (t -> a
f t
t, Event (Pure t) a -> t -> Maybe a
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) a
e t
t)
holdIncremental :: Patch p => PatchTarget p -> Event (Pure t) p -> t -> Incremental (Pure t) p
holdIncremental :: PatchTarget p -> Event (Pure t) p -> t -> Incremental (Pure t) p
holdIncremental PatchTarget p
initialValue Event (Pure t) p
e t
initialTime = (t -> (PatchTarget p, Maybe p)) -> Incremental (Pure t) p
forall t p.
(t -> (PatchTarget p, Maybe p)) -> Incremental (Pure t) p
Incremental ((t -> (PatchTarget p, Maybe p)) -> Incremental (Pure t) p)
-> (t -> (PatchTarget p, Maybe p)) -> Incremental (Pure t) p
forall a b. (a -> b) -> a -> b
$ \t
t -> (t -> PatchTarget p
f t
t, Event (Pure t) p -> t -> Maybe p
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) p
e t
t)
where f :: t -> PatchTarget p
f = (t -> PatchTarget p) -> t -> PatchTarget p
forall t a. HasTrie t => (t -> a) -> t -> a
memo ((t -> PatchTarget p) -> t -> PatchTarget p)
-> (t -> PatchTarget p) -> t -> PatchTarget p
forall a b. (a -> b) -> a -> b
$ \t
sampleTime ->
if t
sampleTime t -> t -> Bool
forall a. Ord a => a -> a -> Bool
<= t
initialTime
then PatchTarget p
initialValue
else let lastTime :: t
lastTime = t -> t
forall a. Enum a => a -> a
pred t
sampleTime
lastValue :: PatchTarget p
lastValue = t -> PatchTarget p
f t
lastTime
in case Event (Pure t) p -> t -> Maybe p
forall t a. Event (Pure t) a -> t -> Maybe a
unEvent Event (Pure t) p
e t
lastTime of
Maybe p
Nothing -> PatchTarget p
lastValue
Just p
x -> PatchTarget p -> Maybe (PatchTarget p) -> PatchTarget p
forall a. a -> Maybe a -> a
fromMaybe PatchTarget p
lastValue (Maybe (PatchTarget p) -> PatchTarget p)
-> Maybe (PatchTarget p) -> PatchTarget p
forall a b. (a -> b) -> a -> b
$ p -> PatchTarget p -> Maybe (PatchTarget p)
forall p. Patch p => p -> PatchTarget p -> Maybe (PatchTarget p)
apply p
x PatchTarget p
lastValue
headE :: Event (Pure t) a -> t -> Event (Pure t) a
headE = Event (Pure t) a -> t -> Event (Pure t) a
forall k (t :: k) (m :: * -> *) a.
(Reflex t, MonadHold t m, MonadFix m) =>
Event t a -> m (Event t a)
slowHeadE
now :: t -> Event (Pure t) ()
now t
t = (t -> Maybe ()) -> Event (Pure t) ()
forall t a. (t -> Maybe a) -> Event (Pure t) a
Event ((t -> Maybe ()) -> Event (Pure t) ())
-> (t -> Maybe ()) -> Event (Pure t) ()
forall a b. (a -> b) -> a -> b
$ Bool -> Maybe ()
forall (f :: * -> *). Alternative f => Bool -> f ()
guard (Bool -> Maybe ()) -> (t -> Bool) -> t -> Maybe ()
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (t
t t -> t -> Bool
forall a. Eq a => a -> a -> Bool
==)