{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE Rank2Types #-}
module Synthesizer.LLVM.Plug.Input (
T(..),
Default(..),
rmap,
split,
fanout,
lazySize,
ignore,
storableVector,
piecewiseConstant,
controllerSet,
) where
import qualified Synthesizer.Zip as Zip
import qualified Synthesizer.LLVM.ConstantPiece as Const
import qualified LLVM.Extra.Multi.Value.Storable as Storable
import qualified LLVM.Extra.Multi.Value.Marshal as Marshal
import qualified LLVM.Extra.Multi.Value as MultiValue
import qualified LLVM.Extra.Memory as Memory
import qualified LLVM.Extra.Arithmetic as A
import qualified LLVM.Extra.Tuple as Tuple
import qualified LLVM.Extra.Control as C
import qualified LLVM.ExecutionEngine as EE
import qualified LLVM.Core as LLVM
import qualified Type.Data.Num.Decimal as TypeNum
import Type.Data.Num.Decimal ((:*:))
import Type.Base.Proxy (Proxy)
import qualified Synthesizer.MIDI.PiecewiseConstant.ControllerSet as PCS
import qualified Synthesizer.Generic.Signal as SigG
import qualified Data.EventList.Relative.BodyTime as EventListBT
import qualified Data.EventList.Relative.MixedTime as EventListMT
import qualified Data.EventList.Relative.TimeTime as EventListTT
import qualified Numeric.NonNegative.Wrapper as NonNegW
import qualified Synthesizer.LLVM.Storable.Vector as SVU
import qualified Data.StorableVector as SV
import qualified Foreign.Marshal.Array as Array
import qualified Foreign.Marshal.Alloc as Alloc
import qualified Foreign.ForeignPtr as FPtr
import Foreign.Storable (pokeElemOff)
import qualified Control.Functor.HT as FuncHT
import Control.Applicative (liftA2, (<$>))
import qualified Data.Map as Map
import qualified Data.List as List
import Data.Tuple.Strict (mapFst, zipPair)
import Data.Word (Word)
import Prelude hiding (map)
data T a b =
forall state ioContext parameters.
(Marshal.C parameters, Memory.C state) =>
Cons
(forall r.
MultiValue.T parameters ->
state -> LLVM.CodeGenFunction r (b, state))
(forall r.
MultiValue.T parameters ->
LLVM.CodeGenFunction r state)
(a -> IO (ioContext, parameters))
(ioContext -> IO ())
instance Functor (T a) where
fmap :: forall a b. (a -> b) -> T a a -> T a b
fmap a -> b
f (Cons forall r. T parameters -> state -> CodeGenFunction r (a, state)
next forall r. T parameters -> CodeGenFunction r state
start a -> IO (ioContext, parameters)
create ioContext -> IO ()
delete) =
(forall r. T parameters -> state -> CodeGenFunction r (b, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (a -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T a b
forall a b state ioContext parameters.
(C parameters, C state) =>
(forall r. T parameters -> state -> CodeGenFunction r (b, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (a -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T a b
Cons (\T parameters
p state
s -> ((a, state) -> (b, state))
-> CodeGenFunction r (a, state) -> CodeGenFunction r (b, state)
forall a b. (a -> b) -> CodeGenFunction r a -> CodeGenFunction r b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap ((a -> b) -> (a, state) -> (b, state)
forall a c b. (a -> c) -> (a, b) -> (c, b)
mapFst a -> b
f) (CodeGenFunction r (a, state) -> CodeGenFunction r (b, state))
-> CodeGenFunction r (a, state) -> CodeGenFunction r (b, state)
forall a b. (a -> b) -> a -> b
$ T parameters -> state -> CodeGenFunction r (a, state)
forall r. T parameters -> state -> CodeGenFunction r (a, state)
next T parameters
p state
s) T parameters -> CodeGenFunction r state
forall r. T parameters -> CodeGenFunction r state
start a -> IO (ioContext, parameters)
create ioContext -> IO ()
delete
map :: (forall r. a -> LLVM.CodeGenFunction r b) -> T inp a -> T inp b
map :: forall a b inp.
(forall r. a -> CodeGenFunction r b) -> T inp a -> T inp b
map forall r. a -> CodeGenFunction r b
f (Cons forall r. T parameters -> state -> CodeGenFunction r (a, state)
next forall r. T parameters -> CodeGenFunction r state
start inp -> IO (ioContext, parameters)
create ioContext -> IO ()
delete) =
(forall r. T parameters -> state -> CodeGenFunction r (b, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (inp -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T inp b
forall a b state ioContext parameters.
(C parameters, C state) =>
(forall r. T parameters -> state -> CodeGenFunction r (b, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (a -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T a b
Cons (\T parameters
p state
s -> (a -> CodeGenFunction r b)
-> (a, state) -> CodeGenFunction r (b, state)
forall (f :: * -> *) a c b.
Functor f =>
(a -> f c) -> (a, b) -> f (c, b)
FuncHT.mapFst a -> CodeGenFunction r b
forall r. a -> CodeGenFunction r b
f ((a, state) -> CodeGenFunction r (b, state))
-> CodeGenFunction r (a, state) -> CodeGenFunction r (b, state)
forall (m :: * -> *) a b. Monad m => (a -> m b) -> m a -> m b
=<< T parameters -> state -> CodeGenFunction r (a, state)
forall r. T parameters -> state -> CodeGenFunction r (a, state)
next T parameters
p state
s) T parameters -> CodeGenFunction r state
forall r. T parameters -> CodeGenFunction r state
start inp -> IO (ioContext, parameters)
create ioContext -> IO ()
delete
class Default a where
type Element a
deflt :: T a (Element a)
rmap :: (a -> b) -> T b c -> T a c
rmap :: forall a b c. (a -> b) -> T b c -> T a c
rmap a -> b
f (Cons forall r. T parameters -> state -> CodeGenFunction r (c, state)
next forall r. T parameters -> CodeGenFunction r state
start b -> IO (ioContext, parameters)
create ioContext -> IO ()
delete) =
(forall r. T parameters -> state -> CodeGenFunction r (c, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (a -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T a c
forall a b state ioContext parameters.
(C parameters, C state) =>
(forall r. T parameters -> state -> CodeGenFunction r (b, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (a -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T a b
Cons T parameters -> state -> CodeGenFunction r (c, state)
forall r. T parameters -> state -> CodeGenFunction r (c, state)
next T parameters -> CodeGenFunction r state
forall r. T parameters -> CodeGenFunction r state
start (b -> IO (ioContext, parameters)
create (b -> IO (ioContext, parameters))
-> (a -> b) -> a -> IO (ioContext, parameters)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. a -> b
f) ioContext -> IO ()
delete
fanout :: T a b -> T a c -> T a (b,c)
fanout :: forall a b c. T a b -> T a c -> T a (b, c)
fanout T a b
f T a c
g = (a -> T a a) -> T (T a a) (b, c) -> T a (b, c)
forall a b c. (a -> b) -> T b c -> T a c
rmap (\a
a -> a -> a -> T a a
forall a b. a -> b -> T a b
Zip.Cons a
a a
a) (T (T a a) (b, c) -> T a (b, c)) -> T (T a a) (b, c) -> T a (b, c)
forall a b. (a -> b) -> a -> b
$ T a b -> T a c -> T (T a a) (b, c)
forall a c b d. T a c -> T b d -> T (T a b) (c, d)
split T a b
f T a c
g
instance (Default a, Default b) => Default (Zip.T a b) where
type Element (Zip.T a b) = (Element a, Element b)
deflt :: T (T a b) (Element (T a b))
deflt = T a (Element a)
-> T b (Element b) -> T (T a b) (Element a, Element b)
forall a c b d. T a c -> T b d -> T (T a b) (c, d)
split T a (Element a)
forall a. Default a => T a (Element a)
deflt T b (Element b)
forall a. Default a => T a (Element a)
deflt
split :: T a c -> T b d -> T (Zip.T a b) (c,d)
split :: forall a c b d. T a c -> T b d -> T (T a b) (c, d)
split (Cons forall r. T parameters -> state -> CodeGenFunction r (c, state)
nextA forall r. T parameters -> CodeGenFunction r state
startA a -> IO (ioContext, parameters)
createA ioContext -> IO ()
deleteA)
(Cons forall r. T parameters -> state -> CodeGenFunction r (d, state)
nextB forall r. T parameters -> CodeGenFunction r state
startB b -> IO (ioContext, parameters)
createB ioContext -> IO ()
deleteB) = (forall r.
T (parameters, parameters)
-> (state, state) -> CodeGenFunction r ((c, d), (state, state)))
-> (forall r.
T (parameters, parameters) -> CodeGenFunction r (state, state))
-> (T a b -> IO ((ioContext, ioContext), (parameters, parameters)))
-> ((ioContext, ioContext) -> IO ())
-> T (T a b) (c, d)
forall a b state ioContext parameters.
(C parameters, C state) =>
(forall r. T parameters -> state -> CodeGenFunction r (b, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (a -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T a b
Cons
((T parameters
-> T parameters
-> (state, state)
-> CodeGenFunction r ((c, d), (state, state)))
-> T (parameters, parameters)
-> (state, state)
-> CodeGenFunction r ((c, d), (state, state))
forall a b c. (T a -> T b -> c) -> T (a, b) -> c
MultiValue.uncurry ((T parameters
-> T parameters
-> (state, state)
-> CodeGenFunction r ((c, d), (state, state)))
-> T (parameters, parameters)
-> (state, state)
-> CodeGenFunction r ((c, d), (state, state)))
-> (T parameters
-> T parameters
-> (state, state)
-> CodeGenFunction r ((c, d), (state, state)))
-> T (parameters, parameters)
-> (state, state)
-> CodeGenFunction r ((c, d), (state, state))
forall a b. (a -> b) -> a -> b
$ \T parameters
parameterA T parameters
parameterB (state
sa,state
sb) ->
((c, state) -> (d, state) -> ((c, d), (state, state)))
-> CodeGenFunction r (c, state)
-> CodeGenFunction r (d, state)
-> CodeGenFunction r ((c, d), (state, state))
forall a b c.
(a -> b -> c)
-> CodeGenFunction r a
-> CodeGenFunction r b
-> CodeGenFunction r c
forall (f :: * -> *) a b c.
Applicative f =>
(a -> b -> c) -> f a -> f b -> f c
liftA2 (c, state) -> (d, state) -> ((c, d), (state, state))
forall a b c d. (a, b) -> (c, d) -> ((a, c), (b, d))
zipPair (T parameters -> state -> CodeGenFunction r (c, state)
forall r. T parameters -> state -> CodeGenFunction r (c, state)
nextA T parameters
parameterA state
sa) (T parameters -> state -> CodeGenFunction r (d, state)
forall r. T parameters -> state -> CodeGenFunction r (d, state)
nextB T parameters
parameterB state
sb))
((T parameters -> T parameters -> CodeGenFunction r (state, state))
-> T (parameters, parameters) -> CodeGenFunction r (state, state)
forall a b c. (T a -> T b -> c) -> T (a, b) -> c
MultiValue.uncurry ((T parameters -> T parameters -> CodeGenFunction r (state, state))
-> T (parameters, parameters) -> CodeGenFunction r (state, state))
-> (T parameters
-> T parameters -> CodeGenFunction r (state, state))
-> T (parameters, parameters)
-> CodeGenFunction r (state, state)
forall a b. (a -> b) -> a -> b
$ \T parameters
parameterA T parameters
parameterB ->
(state -> state -> (state, state))
-> CodeGenFunction r state
-> CodeGenFunction r state
-> CodeGenFunction r (state, state)
forall a b c.
(a -> b -> c)
-> CodeGenFunction r a
-> CodeGenFunction r b
-> CodeGenFunction r c
forall (f :: * -> *) a b c.
Applicative f =>
(a -> b -> c) -> f a -> f b -> f c
liftA2 (,) (T parameters -> CodeGenFunction r state
forall r. T parameters -> CodeGenFunction r state
startA T parameters
parameterA) (T parameters -> CodeGenFunction r state
forall r. T parameters -> CodeGenFunction r state
startB T parameters
parameterB))
(\(Zip.Cons a
a b
b) ->
((ioContext, parameters)
-> (ioContext, parameters)
-> ((ioContext, ioContext), (parameters, parameters)))
-> IO (ioContext, parameters)
-> IO (ioContext, parameters)
-> IO ((ioContext, ioContext), (parameters, parameters))
forall a b c. (a -> b -> c) -> IO a -> IO b -> IO c
forall (f :: * -> *) a b c.
Applicative f =>
(a -> b -> c) -> f a -> f b -> f c
liftA2 (ioContext, parameters)
-> (ioContext, parameters)
-> ((ioContext, ioContext), (parameters, parameters))
forall a b c d. (a, b) -> (c, d) -> ((a, c), (b, d))
zipPair (a -> IO (ioContext, parameters)
createA a
a) (b -> IO (ioContext, parameters)
createB b
b))
(\(ioContext
ca,ioContext
cb) -> ioContext -> IO ()
deleteA ioContext
ca IO () -> IO () -> IO ()
forall a b. IO a -> IO b -> IO b
forall (m :: * -> *) a b. Monad m => m a -> m b -> m b
>> ioContext -> IO ()
deleteB ioContext
cb)
instance Default SigG.LazySize where
type Element SigG.LazySize = ()
deflt :: T LazySize (Element LazySize)
deflt = T LazySize ()
T LazySize (Element LazySize)
lazySize
lazySize :: T SigG.LazySize ()
lazySize :: T LazySize ()
lazySize = T LazySize ()
forall a. T a ()
ignore
ignore :: T a ()
ignore :: forall a. T a ()
ignore =
(forall r. T () -> T () -> CodeGenFunction r ((), T ()))
-> (forall r. T () -> CodeGenFunction r (T ()))
-> (a -> IO ((), ()))
-> (() -> IO ())
-> T a ()
forall a b state ioContext parameters.
(C parameters, C state) =>
(forall r. T parameters -> state -> CodeGenFunction r (b, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (a -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T a b
Cons
(\ T ()
_ T ()
unit -> ((), T ()) -> CodeGenFunction r ((), T ())
forall a. a -> CodeGenFunction r a
forall (m :: * -> *) a. Monad m => a -> m a
return ((), T ()
unit))
T () -> CodeGenFunction r (T ())
forall a. a -> CodeGenFunction r a
forall r. T () -> CodeGenFunction r (T ())
forall (m :: * -> *) a. Monad m => a -> m a
return
(\ a
_a -> ((), ()) -> IO ((), ())
forall a. a -> IO a
forall (m :: * -> *) a. Monad m => a -> m a
return ((), ()))
(IO () -> () -> IO ()
forall a b. a -> b -> a
const (IO () -> () -> IO ()) -> IO () -> () -> IO ()
forall a b. (a -> b) -> a -> b
$ () -> IO ()
forall a. a -> IO a
forall (m :: * -> *) a. Monad m => a -> m a
return ())
instance (Storable.C a) => Default (SV.Vector a) where
type Element (SV.Vector a) = MultiValue.T a
deflt :: T (Vector a) (Element (Vector a))
deflt = T (Vector a) (T a)
T (Vector a) (Element (Vector a))
forall a. C a => T (Vector a) (T a)
storableVector
storableVector :: (Storable.C a) => T (SV.Vector a) (MultiValue.T a)
storableVector :: forall a. C a => T (Vector a) (T a)
storableVector =
(forall r.
T (Ptr a) -> T (Ptr a) -> CodeGenFunction r (T a, T (Ptr a)))
-> (forall r. T (Ptr a) -> CodeGenFunction r (T (Ptr a)))
-> (Vector a -> IO (ForeignPtr a, Ptr a))
-> (ForeignPtr a -> IO ())
-> T (Vector a) (T a)
forall a b state ioContext parameters.
(C parameters, C state) =>
(forall r. T parameters -> state -> CodeGenFunction r (b, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (a -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T a b
Cons
(\ T (Ptr a)
_ (MultiValue.Cons Repr (Ptr a)
p) ->
(T a -> T (Ptr a) -> (T a, T (Ptr a)))
-> CodeGenFunction r (T a)
-> CodeGenFunction r (T (Ptr a))
-> CodeGenFunction r (T a, T (Ptr a))
forall a b c.
(a -> b -> c)
-> CodeGenFunction r a
-> CodeGenFunction r b
-> CodeGenFunction r c
forall (f :: * -> *) a b c.
Applicative f =>
(a -> b -> c) -> f a -> f b -> f c
liftA2 (,)
(Value (Ptr a) -> CodeGenFunction r (T a)
forall a r. C a => Value (Ptr a) -> CodeGenFunction r (T a)
forall r. Value (Ptr a) -> CodeGenFunction r (T a)
Storable.load Repr (Ptr a)
Value (Ptr a)
p)
(Repr (Ptr a) -> T (Ptr a)
forall a. Repr a -> T a
MultiValue.Cons (Repr (Ptr a) -> T (Ptr a))
-> CodeGenFunction r (Repr (Ptr a))
-> CodeGenFunction r (T (Ptr a))
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Repr (Ptr a) -> CodeGenFunction r (Repr (Ptr a))
forall a ptr r.
(Storable a, Value (Ptr a) ~ ptr) =>
ptr -> CodeGenFunction r ptr
Storable.incrementPtr Repr (Ptr a)
p))
T (Ptr a) -> CodeGenFunction r (T (Ptr a))
forall a. a -> CodeGenFunction r a
forall r. T (Ptr a) -> CodeGenFunction r (T (Ptr a))
forall (m :: * -> *) a. Monad m => a -> m a
return
(\Vector a
vec ->
let (ForeignPtr a
fp,Ptr a
ptr,Int
_l) = Vector a -> (ForeignPtr a, Ptr a, Int)
forall a. Storable a => Vector a -> (ForeignPtr a, Ptr a, Int)
SVU.unsafeToPointers Vector a
vec
in (ForeignPtr a, Ptr a) -> IO (ForeignPtr a, Ptr a)
forall a. a -> IO a
forall (m :: * -> *) a. Monad m => a -> m a
return (ForeignPtr a
fp,Ptr a
ptr))
ForeignPtr a -> IO ()
forall a. ForeignPtr a -> IO ()
FPtr.touchForeignPtr
instance
(Marshal.C a, time ~ NonNegW.Int) =>
Default (EventListBT.T time a) where
type Element (EventListBT.T time a) = MultiValue.T a
deflt :: T (T time a) (Element (T time a))
deflt = T (T time a) (Element (T time a))
T (T Int a) (T a)
forall a. C a => T (T Int a) (T a)
piecewiseConstant
piecewiseConstant ::
(Marshal.C a) => T (EventListBT.T NonNegW.Int a) (MultiValue.T a)
piecewiseConstant :: forall a. C a => T (T Int a) (T a)
piecewiseConstant =
T (T Int a) (T (T a)) -> T (T Int a) (T a)
forall value events.
C value =>
T events (T value) -> T events value
expandConstantPieces (T (T Int a) (T (T a)) -> T (T Int a) (T a))
-> T (T Int a) (T (T a)) -> T (T Int a) (T a)
forall a b. (a -> b) -> a -> b
$
(T Int a -> Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
-> T (Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
(T (T a))
-> T (T Int a) (T (T a))
forall a b c. (a -> b) -> T b c -> T a c
rmap
([Stored (Struct (Word, (Struct (Repr a), ())))]
-> Vector (Stored (Struct (Word, (Struct (Repr a), ()))))
forall a. Storable a => [a] -> Vector a
SV.pack ([Stored (Struct (Word, (Struct (Repr a), ())))]
-> Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
-> (T Int a -> [Stored (Struct (Word, (Struct (Repr a), ())))])
-> T Int a
-> Vector (Stored (Struct (Word, (Struct (Repr a), ()))))
forall b c a. (b -> c) -> (a -> b) -> a -> c
.
((a, Int) -> Stored (Struct (Word, (Struct (Repr a), ()))))
-> [(a, Int)] -> [Stored (Struct (Word, (Struct (Repr a), ())))]
forall a b. (a -> b) -> [a] -> [b]
List.map
(\(a
a,Int
t) -> Struct (Word, (Struct (Repr a), ()))
-> Stored (Struct (Word, (Struct (Repr a), ())))
forall a. a -> Stored a
EE.Stored (Struct (Word, (Struct (Repr a), ()))
-> Stored (Struct (Word, (Struct (Repr a), ()))))
-> Struct (Word, (Struct (Repr a), ()))
-> Stored (Struct (Word, (Struct (Repr a), ())))
forall a b. (a -> b) -> a -> b
$ (Word, (Struct (Repr a), ()))
-> Struct (Word, (Struct (Repr a), ()))
forall a. a -> Struct a
LLVM.Struct
(Int -> Word
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Int -> Word) -> Int -> Word
forall a b. (a -> b) -> a -> b
$ Int -> Int
forall a. T a -> a
NonNegW.toNumber Int
t :: Word, (a -> Struct (Repr a)
forall a. C a => a -> Struct a
Marshal.pack a
a, ()))) ([(a, Int)] -> [Stored (Struct (Word, (Struct (Repr a), ())))])
-> (T Int a -> [(a, Int)])
-> T Int a
-> [Stored (Struct (Word, (Struct (Repr a), ())))]
forall b c a. (b -> c) -> (a -> b) -> a -> c
.
T Int a -> [(a, Int)]
forall time body. T time body -> [(body, time)]
EventListBT.toPairList) (T (Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
(T (T a))
-> T (T Int a) (T (T a)))
-> T (Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
(T (T a))
-> T (T Int a) (T (T a))
forall a b. (a -> b) -> a -> b
$
(forall r.
T (Stored (Struct (Word, (Struct (Repr a), ()))))
-> CodeGenFunction r (T (T a)))
-> T (Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
(T (Stored (Struct (Word, (Struct (Repr a), ())))))
-> T (Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
(T (T a))
forall a b inp.
(forall r. a -> CodeGenFunction r b) -> T inp a -> T inp b
map
(\(MultiValue.Cons Repr (Stored (Struct (Word, (Struct (Repr a), ()))))
s) -> do
Value Word
t <- Value (Struct (Word, (Struct (Repr a), ())))
-> Proxy D0
-> CodeGenFunction
r
(Value
(ValueType (Struct (Word, (Struct (Repr a), ()))) (Proxy D0)))
forall r agg i.
GetValue agg i =>
Value agg -> i -> CodeGenFunction r (Value (ValueType agg i))
LLVM.extractvalue Repr (Stored (Struct (Word, (Struct (Repr a), ()))))
Value (Struct (Word, (Struct (Repr a), ())))
s Proxy D0
TypeNum.d0
Value (ValueType (Struct (Word, (Struct (Repr a), ()))) (Proxy D1))
a <- Value (Struct (Word, (Struct (Repr a), ())))
-> Proxy D1
-> CodeGenFunction
r
(Value
(ValueType (Struct (Word, (Struct (Repr a), ()))) (Proxy D1)))
forall r agg i.
GetValue agg i =>
Value agg -> i -> CodeGenFunction r (Value (ValueType agg i))
LLVM.extractvalue Repr (Stored (Struct (Word, (Struct (Repr a), ()))))
Value (Struct (Word, (Struct (Repr a), ())))
s Proxy D1
TypeNum.d1
Value Word -> T a -> T (T a)
forall a. Value Word -> a -> T a
Const.Cons Value Word
t (T a -> T (T a)) -> (Repr a -> T a) -> Repr a -> T (T a)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Repr a -> T a
forall a. Repr a -> T a
MultiValue.Cons (Repr a -> T (T a))
-> CodeGenFunction r (Repr a) -> CodeGenFunction r (T (T a))
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Value (Struct (Repr a)) -> CodeGenFunction r (Repr a)
forall llvmValue r.
C llvmValue =>
Value (Struct llvmValue) -> CodeGenFunction r llvmValue
forall r. Value (Struct (Repr a)) -> CodeGenFunction r (Repr a)
Memory.decompose Value (Struct (Repr a))
Value (ValueType (Struct (Word, (Struct (Repr a), ()))) (Proxy D1))
a) (T (Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
(T (Stored (Struct (Word, (Struct (Repr a), ())))))
-> T (Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
(T (T a)))
-> T (Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
(T (Stored (Struct (Word, (Struct (Repr a), ())))))
-> T (Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
(T (T a))
forall a b. (a -> b) -> a -> b
$
T (Vector (Stored (Struct (Word, (Struct (Repr a), ())))))
(T (Stored (Struct (Word, (Struct (Repr a), ())))))
forall a. C a => T (Vector a) (T a)
storableVector
expandConstantPieces ::
(Memory.C value) => T events (Const.T value) -> T events value
expandConstantPieces :: forall value events.
C value =>
T events (T value) -> T events value
expandConstantPieces (Cons forall r.
T parameters -> state -> CodeGenFunction r (T value, state)
next forall r. T parameters -> CodeGenFunction r state
start events -> IO (ioContext, parameters)
create ioContext -> IO ()
delete) = (forall r.
T parameters
-> (T value, state) -> CodeGenFunction r (value, (T value, state)))
-> (forall r. T parameters -> CodeGenFunction r (T value, state))
-> (events -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T events value
forall a b state ioContext parameters.
(C parameters, C state) =>
(forall r. T parameters -> state -> CodeGenFunction r (b, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (a -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T a b
Cons
(\T parameters
param (T value, state)
state0 -> do
(Const.Cons Value Word
length1 value
y1, state
s1) <-
(T value, state)
-> ((T value, state)
-> (CodeGenFunction r (Value Bool),
CodeGenFunction r (T value, state)))
-> CodeGenFunction r (T value, state)
forall a r.
Phi a =>
a
-> (a -> (CodeGenFunction r (Value Bool), CodeGenFunction r a))
-> CodeGenFunction r a
C.whileLoopShared (T value, state)
state0
(\(Const.Cons Value Word
len value
_y, state
s) ->
(CmpPredicate
-> Value Word
-> Value Word
-> CodeGenFunction r (CmpResult (Value Word))
forall r.
CmpPredicate
-> Value Word
-> Value Word
-> CodeGenFunction r (CmpResult (Value Word))
forall a r.
Comparison a =>
CmpPredicate -> a -> a -> CodeGenFunction r (CmpResult a)
A.cmp CmpPredicate
LLVM.CmpEQ Value Word
len Value Word
forall a. Zero a => a
Tuple.zero,
T parameters -> state -> CodeGenFunction r (T value, state)
forall r.
T parameters -> state -> CodeGenFunction r (T value, state)
next T parameters
param state
s))
Value Word
length2 <- Value Word -> CodeGenFunction r (Value Word)
forall a r.
(IsArithmetic a, IsConst a, Num a) =>
Value a -> CodeGenFunction r (Value a)
A.dec Value Word
length1
(value, (T value, state))
-> CodeGenFunction r (value, (T value, state))
forall a. a -> CodeGenFunction r a
forall (m :: * -> *) a. Monad m => a -> m a
return (value
y1, (Value Word -> value -> T value
forall a. Value Word -> a -> T a
Const.Cons Value Word
length2 value
y1, state
s1)))
(\T parameters
param -> (,) (Value Word -> value -> T value
forall a. Value Word -> a -> T a
Const.Cons Value Word
forall a. Zero a => a
Tuple.zero value
forall a. Undefined a => a
Tuple.undef) (state -> (T value, state))
-> CodeGenFunction r state -> CodeGenFunction r (T value, state)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> T parameters -> CodeGenFunction r state
forall r. T parameters -> CodeGenFunction r state
start T parameters
param)
events -> IO (ioContext, parameters)
create ioContext -> IO ()
delete
controllerSet ::
(Marshal.C a, Marshal.Struct a ~ aStruct, LLVM.IsSized aStruct,
TypeNum.Natural n,
(n:*:LLVM.SizeOf aStruct) ~ arrSize, TypeNum.Natural arrSize) =>
Proxy n -> T (PCS.T Int a) (MultiValue.T (MultiValue.Array n a))
controllerSet :: forall a aStruct n arrSize.
(C a, Struct a ~ aStruct, IsSized aStruct, Natural n,
(n :*: SizeOf aStruct) ~ arrSize, Natural arrSize) =>
Proxy n -> T (T Int a) (T (Array n a))
controllerSet Proxy n
pn =
Proxy n
-> T (Vector (Stored (Struct (Repr (Word, Word, a)))))
(Value Word, (Value Word, T a))
-> T (T Int a) (T (Array n a))
forall a aStruct n arrSize.
(C a, Struct a ~ aStruct, IsSized aStruct, Natural n,
(n :*: SizeOf aStruct) ~ arrSize, Natural arrSize) =>
Proxy n
-> T (Vector (Stored (Struct (Word, Word, a))))
(Value Word, (Value Word, T a))
-> T (T Int a) (T (Array n a))
controllerSetFromSV Proxy n
pn (T (Vector (Stored (Struct (Repr (Word, Word, a)))))
(Value Word, (Value Word, T a))
-> T (T Int a) (T (Array n a)))
-> T (Vector (Stored (Struct (Repr (Word, Word, a)))))
(Value Word, (Value Word, T a))
-> T (T Int a) (T (Array n a))
forall a b. (a -> b) -> a -> b
$
(forall r.
T (Stored (Struct (Word, (Word, (aStruct, ())))))
-> CodeGenFunction r (Value Word, (Value Word, T a)))
-> T (Vector (Stored (Struct (Repr (Word, Word, a)))))
(T (Stored (Struct (Word, (Word, (aStruct, ()))))))
-> T (Vector (Stored (Struct (Repr (Word, Word, a)))))
(Value Word, (Value Word, T a))
forall a b inp.
(forall r. a -> CodeGenFunction r b) -> T inp a -> T inp b
map
(\(MultiValue.Cons Repr (Stored (Struct (Word, (Word, (aStruct, ())))))
s) -> do
Value Word
len <- Value (Struct (Word, (Word, (aStruct, ()))))
-> Proxy D0
-> CodeGenFunction
r
(Value
(ValueType (Struct (Word, (Word, (aStruct, ())))) (Proxy D0)))
forall r agg i.
GetValue agg i =>
Value agg -> i -> CodeGenFunction r (Value (ValueType agg i))
LLVM.extractvalue Repr (Stored (Struct (Word, (Word, (aStruct, ())))))
Value (Struct (Word, (Word, (aStruct, ()))))
s Proxy D0
TypeNum.d0
Value Word
i <- Value (Struct (Word, (Word, (aStruct, ()))))
-> Proxy D1
-> CodeGenFunction
r
(Value
(ValueType (Struct (Word, (Word, (aStruct, ())))) (Proxy D1)))
forall r agg i.
GetValue agg i =>
Value agg -> i -> CodeGenFunction r (Value (ValueType agg i))
LLVM.extractvalue Repr (Stored (Struct (Word, (Word, (aStruct, ())))))
Value (Struct (Word, (Word, (aStruct, ()))))
s Proxy D1
TypeNum.d1
T a
a <- Value aStruct -> CodeGenFunction r (T a)
Value (Struct (T a)) -> CodeGenFunction r (T a)
forall llvmValue r.
C llvmValue =>
Value (Struct llvmValue) -> CodeGenFunction r llvmValue
forall r. Value (Struct (T a)) -> CodeGenFunction r (T a)
Memory.decompose (Value aStruct -> CodeGenFunction r (T a))
-> CodeGenFunction r (Value aStruct) -> CodeGenFunction r (T a)
forall (m :: * -> *) a b. Monad m => (a -> m b) -> m a -> m b
=<< Value (Struct (Word, (Word, (aStruct, ()))))
-> Proxy D2
-> CodeGenFunction
r
(Value
(ValueType (Struct (Word, (Word, (aStruct, ())))) (Proxy D2)))
forall r agg i.
GetValue agg i =>
Value agg -> i -> CodeGenFunction r (Value (ValueType agg i))
LLVM.extractvalue Repr (Stored (Struct (Word, (Word, (aStruct, ())))))
Value (Struct (Word, (Word, (aStruct, ()))))
s Proxy D2
TypeNum.d2
(Value Word, (Value Word, T a))
-> CodeGenFunction r (Value Word, (Value Word, T a))
forall a. a -> CodeGenFunction r a
forall (m :: * -> *) a. Monad m => a -> m a
return (Value Word
len,(Value Word
i,T a
a))) (T (Vector (Stored (Struct (Repr (Word, Word, a)))))
(T (Stored (Struct (Word, (Word, (aStruct, ()))))))
-> T (Vector (Stored (Struct (Repr (Word, Word, a)))))
(Value Word, (Value Word, T a)))
-> T (Vector (Stored (Struct (Repr (Word, Word, a)))))
(T (Stored (Struct (Word, (Word, (aStruct, ()))))))
-> T (Vector (Stored (Struct (Repr (Word, Word, a)))))
(Value Word, (Value Word, T a))
forall a b. (a -> b) -> a -> b
$
T (Vector (Stored (Struct (Repr (Word, Word, a)))))
(T (Stored (Struct (Word, (Word, (aStruct, ()))))))
T (Vector (Stored (Struct (Word, (Word, (aStruct, ()))))))
(T (Stored (Struct (Word, (Word, (aStruct, ()))))))
forall a. C a => T (Vector a) (T a)
storableVector
controllerSetFromSV ::
(Marshal.C a, Marshal.Struct a ~ aStruct, LLVM.IsSized aStruct,
TypeNum.Natural n,
(n:*:LLVM.SizeOf aStruct) ~ arrSize, TypeNum.Natural arrSize) =>
Proxy n ->
T (SV.Vector (EE.Stored (Marshal.Struct (Word,Word,a))))
(LLVM.Value Word, (LLVM.Value Word, MultiValue.T a)) ->
T (PCS.T Int a) (MultiValue.T (MultiValue.Array n a))
controllerSetFromSV :: forall a aStruct n arrSize.
(C a, Struct a ~ aStruct, IsSized aStruct, Natural n,
(n :*: SizeOf aStruct) ~ arrSize, Natural arrSize) =>
Proxy n
-> T (Vector (Stored (Struct (Word, Word, a))))
(Value Word, (Value Word, T a))
-> T (T Int a) (T (Array n a))
controllerSetFromSV Proxy n
pn (Cons forall r.
T parameters
-> state
-> CodeGenFunction r ((Value Word, (Value Word, T a)), state)
next forall r. T parameters -> CodeGenFunction r state
start Vector (Stored (Struct (Word, Word, a)))
-> IO (ioContext, parameters)
create ioContext -> IO ()
delete) = (forall r.
T ((Ptr aStruct, Word), parameters)
-> (Value Word, state)
-> CodeGenFunction r (T (Array n a), (Value Word, state)))
-> (forall r.
T ((Ptr aStruct, Word), parameters)
-> CodeGenFunction r (Value Word, state))
-> (T Int a
-> IO
((Ptr (Stored aStruct), ioContext),
((Ptr aStruct, Word), parameters)))
-> ((Ptr (Stored aStruct), ioContext) -> IO ())
-> T (T Int a) (T (Array n a))
forall a b state ioContext parameters.
(C parameters, C state) =>
(forall r. T parameters -> state -> CodeGenFunction r (b, state))
-> (forall r. T parameters -> CodeGenFunction r state)
-> (a -> IO (ioContext, parameters))
-> (ioContext -> IO ())
-> T a b
Cons
((T (Ptr aStruct, Word)
-> T parameters
-> (Value Word, state)
-> CodeGenFunction r (T (Array n a), (Value Word, state)))
-> T ((Ptr aStruct, Word), parameters)
-> (Value Word, state)
-> CodeGenFunction r (T (Array n a), (Value Word, state))
forall a b c. (T a -> T b -> c) -> T (a, b) -> c
MultiValue.uncurry ((T (Ptr aStruct, Word)
-> T parameters
-> (Value Word, state)
-> CodeGenFunction r (T (Array n a), (Value Word, state)))
-> T ((Ptr aStruct, Word), parameters)
-> (Value Word, state)
-> CodeGenFunction r (T (Array n a), (Value Word, state)))
-> (T (Ptr aStruct, Word)
-> T parameters
-> (Value Word, state)
-> CodeGenFunction r (T (Array n a), (Value Word, state)))
-> T ((Ptr aStruct, Word), parameters)
-> (Value Word, state)
-> CodeGenFunction r (T (Array n a), (Value Word, state))
forall a b. (a -> b) -> a -> b
$ \(MultiValue.Cons (Value (Ptr aStruct)
arrPtr, Value Word
_)) T parameters
param (Value Word, state)
state0 -> do
(Value Word
length2, state
s2) <-
(Value Word, state)
-> ((Value Word, state)
-> (CodeGenFunction r (Value Bool),
CodeGenFunction r (Value Word, state)))
-> CodeGenFunction r (Value Word, state)
forall a r.
Phi a =>
a
-> (a -> (CodeGenFunction r (Value Bool), CodeGenFunction r a))
-> CodeGenFunction r a
C.whileLoopShared (Value Word, state)
state0
(\(Value Word
len0, state
s0) ->
(CmpPredicate
-> Value Word
-> Value Word
-> CodeGenFunction r (CmpResult (Value Word))
forall r.
CmpPredicate
-> Value Word
-> Value Word
-> CodeGenFunction r (CmpResult (Value Word))
forall a r.
Comparison a =>
CmpPredicate -> a -> a -> CodeGenFunction r (CmpResult a)
A.cmp CmpPredicate
LLVM.CmpEQ Value Word
len0 Value Word
forall a. Zero a => a
Tuple.zero,
do ((Value Word
len1, (Value Word
i,T a
a)), state
s1) <- T parameters
-> state
-> CodeGenFunction r ((Value Word, (Value Word, T a)), state)
forall r.
T parameters
-> state
-> CodeGenFunction r ((Value Word, (Value Word, T a)), state)
next T parameters
param state
s0
T a -> Value (Ptr (Struct (T a))) -> CodeGenFunction r ()
forall r. T a -> Value (Ptr (Struct (T a))) -> CodeGenFunction r ()
forall llvmValue r.
C llvmValue =>
llvmValue -> Value (Ptr (Struct llvmValue)) -> CodeGenFunction r ()
Memory.store T a
a (Value (Ptr aStruct) -> CodeGenFunction r ())
-> CodeGenFunction r (Value (Ptr aStruct)) -> CodeGenFunction r ()
forall (m :: * -> *) a b. Monad m => (a -> m b) -> m a -> m b
=<< Value (Ptr aStruct)
-> (Value Word, ())
-> CodeGenFunction r (Value (Ptr (ElementPtrType aStruct ())))
forall a o i r.
(GetElementPtr o i, IsIndexArg a) =>
Value (Ptr o)
-> (a, i) -> CodeGenFunction r (Value (Ptr (ElementPtrType o i)))
LLVM.getElementPtr Value (Ptr aStruct)
arrPtr (Value Word
i, ())
(Value Word, state) -> CodeGenFunction r (Value Word, state)
forall a. a -> CodeGenFunction r a
forall (m :: * -> *) a. Monad m => a -> m a
return (Value Word
len1, state
s1)))
Value Word
length3 <- Value Word -> CodeGenFunction r (Value Word)
forall a r.
(IsArithmetic a, IsConst a, Num a) =>
Value a -> CodeGenFunction r (Value a)
A.dec Value Word
length2
T (Array n a)
arr <- Value (Ptr (Struct (T (Array n a))))
-> CodeGenFunction r (T (Array n a))
Value (Ptr (Array n aStruct)) -> CodeGenFunction r (T (Array n a))
forall llvmValue r.
C llvmValue =>
Value (Ptr (Struct llvmValue)) -> CodeGenFunction r llvmValue
forall r.
Value (Ptr (Struct (T (Array n a))))
-> CodeGenFunction r (T (Array n a))
Memory.load (Value (Ptr (Array n aStruct))
-> CodeGenFunction r (T (Array n a)))
-> CodeGenFunction r (Value (Ptr (Array n aStruct)))
-> CodeGenFunction r (T (Array n a))
forall (m :: * -> *) a b. Monad m => (a -> m b) -> m a -> m b
=<< Value (Ptr aStruct)
-> CodeGenFunction r (Value (Ptr (Array n aStruct)))
forall (value :: * -> *) a b r.
(ValueCons value, IsSized a, IsSized b, SizeOf a ~ SizeOf b) =>
value a -> CodeGenFunction r (value b)
LLVM.bitcast Value (Ptr aStruct)
arrPtr
(T (Array n a), (Value Word, state))
-> CodeGenFunction r (T (Array n a), (Value Word, state))
forall a. a -> CodeGenFunction r a
forall (m :: * -> *) a. Monad m => a -> m a
return (T (Array n a)
arr, (Value Word
length3, state
s2)))
((T (Ptr aStruct, Word)
-> T parameters -> CodeGenFunction r (Value Word, state))
-> T ((Ptr aStruct, Word), parameters)
-> CodeGenFunction r (Value Word, state)
forall a b c. (T a -> T b -> c) -> T (a, b) -> c
MultiValue.uncurry ((T (Ptr aStruct, Word)
-> T parameters -> CodeGenFunction r (Value Word, state))
-> T ((Ptr aStruct, Word), parameters)
-> CodeGenFunction r (Value Word, state))
-> (T (Ptr aStruct, Word)
-> T parameters -> CodeGenFunction r (Value Word, state))
-> T ((Ptr aStruct, Word), parameters)
-> CodeGenFunction r (Value Word, state)
forall a b. (a -> b) -> a -> b
$ \(MultiValue.Cons (Value (Ptr aStruct)
_, Value Word
initialTime)) T parameters
param -> do
state
state <- T parameters -> CodeGenFunction r state
forall r. T parameters -> CodeGenFunction r state
start T parameters
param
(Value Word, state) -> CodeGenFunction r (Value Word, state)
forall a. a -> CodeGenFunction r a
forall (m :: * -> *) a. Monad m => a -> m a
return (Value Word
initialTime, state
state))
(\T Int a
pcs ->
(StrictTime
-> T StrictTime (Int, a)
-> IO
((Ptr (Stored aStruct), ioContext),
((Ptr aStruct, Word), parameters)))
-> T StrictTime (Int, a)
-> IO
((Ptr (Stored aStruct), ioContext),
((Ptr aStruct, Word), parameters))
forall time body a. (time -> T time body -> a) -> T time body -> a
EventListMT.switchTimeL
(\StrictTime
initialTime T StrictTime (Int, a)
bt -> do
(ioContext
context, parameters
param) <-
Vector (Stored (Struct (Word, Word, a)))
-> IO (ioContext, parameters)
create
([Stored (Struct (Word, (Word, (aStruct, ()))))]
-> Vector (Stored (Struct (Word, Word, a)))
[Stored (Struct (Word, (Word, (aStruct, ()))))]
-> Vector (Stored (Struct (Word, (Word, (aStruct, ())))))
forall a. Storable a => [a] -> Vector a
SV.pack ([Stored (Struct (Word, (Word, (aStruct, ()))))]
-> Vector (Stored (Struct (Word, Word, a))))
-> (T StrictTime (Int, a)
-> [Stored (Struct (Word, (Word, (aStruct, ()))))])
-> T StrictTime (Int, a)
-> Vector (Stored (Struct (Word, Word, a)))
forall b c a. (b -> c) -> (a -> b) -> a -> c
.
(((Int, a), StrictTime)
-> Stored (Struct (Word, (Word, (aStruct, ())))))
-> [((Int, a), StrictTime)]
-> [Stored (Struct (Word, (Word, (aStruct, ()))))]
forall a b. (a -> b) -> [a] -> [b]
List.map
(\((Int
i,a
a),StrictTime
len) ->
Struct (Word, (Word, (aStruct, ())))
-> Stored (Struct (Word, (Word, (aStruct, ()))))
forall a. a -> Stored a
EE.Stored (Struct (Word, (Word, (aStruct, ())))
-> Stored (Struct (Word, (Word, (aStruct, ())))))
-> Struct (Word, (Word, (aStruct, ())))
-> Stored (Struct (Word, (Word, (aStruct, ()))))
forall a b. (a -> b) -> a -> b
$
(Word, Word, a) -> Struct (Word, Word, a)
forall a. C a => a -> Struct a
Marshal.pack
(StrictTime -> Word
forall a b. (Integral a, Num b) => a -> b
fromIntegral StrictTime
len :: Word,
Int -> Word
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
i :: Word,
a
a)) ([((Int, a), StrictTime)]
-> [Stored (Struct (Word, (Word, (aStruct, ()))))])
-> (T StrictTime (Int, a) -> [((Int, a), StrictTime)])
-> T StrictTime (Int, a)
-> [Stored (Struct (Word, (Word, (aStruct, ()))))]
forall b c a. (b -> c) -> (a -> b) -> a -> c
.
T StrictTime (Int, a) -> [((Int, a), StrictTime)]
forall time body. T time body -> [(body, time)]
EventListBT.toPairList (T StrictTime (Int, a) -> Vector (Stored (Struct (Word, Word, a))))
-> T StrictTime (Int, a)
-> Vector (Stored (Struct (Word, Word, a)))
forall a b. (a -> b) -> a -> b
$
T StrictTime (Int, a)
bt)
let n :: Int
n = Proxy n -> Int
forall n a. (Integer n, Num a) => Proxy n -> a
TypeNum.integralFromProxy Proxy n
pn
Ptr (Stored aStruct)
arr <- Int -> IO (Ptr (Stored aStruct))
forall a. Storable a => Int -> IO (Ptr a)
Array.mallocArray Int
n
(((Int, a) -> IO ()) -> [(Int, a)] -> IO ())
-> [(Int, a)] -> ((Int, a) -> IO ()) -> IO ()
forall a b c. (a -> b -> c) -> b -> a -> c
flip ((Int, a) -> IO ()) -> [(Int, a)] -> IO ()
forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ (Map Int a -> [(Int, a)]
forall k a. Map k a -> [(k, a)]
Map.toList (Map Int a -> [(Int, a)]) -> Map Int a -> [(Int, a)]
forall a b. (a -> b) -> a -> b
$ T Int a -> Map Int a
forall key a. T key a -> Map key a
PCS.initial T Int a
pcs) (((Int, a) -> IO ()) -> IO ()) -> ((Int, a) -> IO ()) -> IO ()
forall a b. (a -> b) -> a -> b
$ \(Int
i,a
a) ->
if Int
i Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
>= Int
n
then [Char] -> IO ()
forall a. HasCallStack => [Char] -> a
error [Char]
"Plug.Input.controllerSet: array too small"
else Ptr (Stored aStruct) -> Int -> Stored aStruct -> IO ()
forall a. Storable a => Ptr a -> Int -> a -> IO ()
pokeElemOff Ptr (Stored aStruct)
arr Int
i (Stored aStruct -> IO ()) -> Stored aStruct -> IO ()
forall a b. (a -> b) -> a -> b
$ aStruct -> Stored aStruct
forall a. a -> Stored a
EE.Stored (aStruct -> Stored aStruct) -> aStruct -> Stored aStruct
forall a b. (a -> b) -> a -> b
$ a -> Struct a
forall a. C a => a -> Struct a
Marshal.pack a
a
((Ptr (Stored aStruct), ioContext),
((Ptr aStruct, Word), parameters))
-> IO
((Ptr (Stored aStruct), ioContext),
((Ptr aStruct, Word), parameters))
forall a. a -> IO a
forall (m :: * -> *) a. Monad m => a -> m a
return
((Ptr (Stored aStruct)
arr, ioContext
context),
((Ptr (Stored aStruct) -> Ptr aStruct
forall a. Ptr (Stored a) -> Ptr a
EE.castFromStoredPtr Ptr (Stored aStruct)
arr, StrictTime -> Word
forall a b. (Integral a, Num b) => a -> b
fromIntegral StrictTime
initialTime :: Word),
parameters
param)))
(T StrictTime [(Int, a)] -> T StrictTime (Int, a)
forall time body. C time => T time [body] -> T time body
EventListTT.flatten (T Int a -> T StrictTime [(Int, a)]
forall key a. T key a -> T StrictTime [(key, a)]
PCS.stream T Int a
pcs)))
(\(Ptr (Stored aStruct)
arr, ioContext
context) ->
Ptr (Stored aStruct) -> IO ()
forall a. Ptr a -> IO ()
Alloc.free Ptr (Stored aStruct)
arr IO () -> IO () -> IO ()
forall a b. IO a -> IO b -> IO b
forall (m :: * -> *) a b. Monad m => m a -> m b -> m b
>> ioContext -> IO ()
delete ioContext
context)