mirror of
https://github.com/idris-lang/Idris2.git
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222 lines
7.8 KiB
Idris
222 lines
7.8 KiB
Idris
module Channel
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import Linear
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import Data.IORef
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import Data.List
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import System.Concurrency
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public export
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data Actions : Type -> Type where
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Send : (a : Type) -> (a -> Actions b) -> Actions b
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Recv : (a : Type) -> (a -> Actions b) -> Actions b
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Close : Actions ()
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public export
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dual : Actions a -> Actions a
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dual (Send x f) = Recv x (\val => dual (f val))
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dual (Recv x f) = Send x (\val => dual (f val))
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dual Close = Close
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public export
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data Protocol : Type -> Type where
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Request : (a : Type) -> Protocol a
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Respond : (a : Type) -> Protocol a
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Bind : Protocol a -> (a -> Protocol b) -> Protocol b
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Loop : Inf (Protocol a) -> Protocol a
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Done : Protocol ()
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public export
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(>>=) : Protocol a -> (a -> Protocol b) -> Protocol b
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(>>=) = Bind
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public export
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(>>) : Protocol a -> Protocol b -> Protocol b
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ma >> mb = ma >>= \ _ => mb
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public export
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ClientK : Protocol a -> (a -> Actions b) -> Actions b
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ClientK (Request a) k = Send a k
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ClientK (Respond a) k = Recv a k
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ClientK (Bind act next) k = ClientK act (\res => ClientK (next res) k)
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ClientK (Loop proto) k = ClientK proto k
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ClientK Done k = k ()
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public export
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ServerK : Protocol a -> (a -> Actions b) -> Actions b
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ServerK (Request a) k = Recv a k
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ServerK (Respond a) k = Send a k
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ServerK (Bind act next) k = ServerK act (\res => ServerK (next res) k)
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ServerK (Loop proto) k = ServerK proto k
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ServerK Done k = k ()
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public export
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AsClient : Protocol a -> Actions ()
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AsClient proto = ClientK proto (\res => Close)
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public export
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AsServer : Protocol a -> Actions ()
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AsServer proto = ServerK proto (\res => Close)
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public export
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data QueueEntry : Type where
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Entry : (1 val : any) -> QueueEntry
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data Stack : Type -> Type where
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Nil : Stack a
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(::) : (1 _ : a) -> (1 xs : Stack a) -> Stack a
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reverseOnto : (1 _ : Stack a) -> (1 _ : Stack a) -> Stack a
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reverseOnto acc [] = acc
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reverseOnto acc (x::xs) = reverseOnto (x::acc) xs
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reverse : (1 _ : Stack a) -> Stack a
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reverse = reverseOnto []
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public export
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record RawMsgQueue where
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constructor MkRawMsgQueue
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1 inputStack : Stack QueueEntry
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1 outputStack : Stack QueueEntry
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newQueue : RawMsgQueue
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newQueue = MkRawMsgQueue [] []
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enqueue : (1 val : a) -> RawMsgQueue -> RawMsgQueue
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enqueue item q = { inputStack $= (Entry item ::) } q
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dequeue : RawMsgQueue -> Maybe (RawMsgQueue, QueueEntry)
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dequeue q
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= case outputStack q of
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[] => case reverse (inputStack q) of
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[] => Nothing
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(x :: xs) => Just ({ outputStack := xs, inputStack := [] } q, x)
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(x :: xs) => Just ({ outputStack := xs } q, x)
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public export
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data Channel : {p : Protocol b} -> Actions a -> Type where
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MkChannel : (lock : Mutex) ->
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(cond_lock : Mutex) ->
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(cond : Condition) ->
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(myInbox : IORef RawMsgQueue) ->
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(remoteInbox : IORef RawMsgQueue) -> Channel {p} actions
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public export
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Client : Protocol a -> Type
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Client p = Channel {p} (AsClient p)
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public export
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Server : Protocol a -> Type
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Server p = Channel {p} (AsServer p)
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mkChannels : (p : Protocol a) -> One IO (Client p, Server p)
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mkChannels p
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= do clientInbox <- lift $ newIORef newQueue
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serverInbox <- lift $ newIORef newQueue
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lock <- lift $ makeMutex
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cond_lock <- lift $ makeMutex
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cond <- lift $ makeCondition
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pure (MkChannel lock cond_lock cond clientInbox serverInbox,
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MkChannel lock cond_lock cond serverInbox clientInbox)
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export
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send : (1 chan : Channel {p} (Send ty next)) -> (val : ty) ->
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One IO (Channel {p} (next val))
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send (MkChannel lock cond_lock cond local remote) val
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= do lift $ mutexAcquire lock
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q <- lift $ readIORef remote
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lift $ writeIORef remote (enqueue val q)
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lift $ mutexRelease lock
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lift $ mutexAcquire cond_lock
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lift $ conditionSignal cond
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lift $ mutexRelease cond_lock
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pure (MkChannel lock cond_lock cond local remote)
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-- returns Nothing if the message isn't there
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export
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tryRecv : forall b, a .
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{0 ty : Type} ->
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{0 next : (ty -> Actions a)} ->
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{0 p : Protocol b} ->
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(1 chan : Channel {p} (Recv ty next)) ->
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One IO (Res (Maybe ty) (\r => case r of
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Nothing => Channel {p} (Recv ty next)
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Just val => Channel {p} (next val)))
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tryRecv (MkChannel lock cond_lock cond local remote)
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= do lift $ mutexAcquire lock
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rq <- lift $ readIORef local
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case dequeue rq of
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Nothing =>
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do lift $ mutexRelease lock
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pure (Nothing # MkChannel lock cond_lock cond local remote)
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Just (rq', Entry {any} val) =>
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do lift $ writeIORef local rq'
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lift $ mutexRelease lock
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pure (Just (believe_me {a=any} val) #
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MkChannel lock cond_lock cond local remote)
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-- blocks until the message is there
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export
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recv : (1 chan : Channel {p} (Recv ty next)) ->
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One IO (Res ty (\val => Channel {p} (next val)))
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recv (MkChannel lock cond_lock cond local remote)
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= do lift $ mutexAcquire lock
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rq <- lift $ readIORef local
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case dequeue rq of
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Nothing => -- ... no message, so wait for condition and try again
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do lift $ mutexRelease lock
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lift $ mutexAcquire cond_lock
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lift $ conditionWait cond cond_lock
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lift $ mutexRelease cond_lock
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recv (MkChannel lock cond_lock cond local remote)
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Just (rq', Entry {any} val) =>
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do lift $ writeIORef local rq'
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lift $ mutexRelease lock
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pure (believe_me {a=any} val #
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MkChannel lock cond_lock cond local remote)
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export
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timeoutRecv : forall b, a .
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{0 ty : Type} ->
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{0 next : (ty -> Actions a)} ->
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{0 p : Protocol b} ->
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(1 chan : Channel {p} (Recv ty next)) ->
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(timeout : Int) ->
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One IO (Res (Maybe ty) (\r => case r of
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Nothing => Channel {p} (Recv ty next)
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Just val => Channel {p} (next val)))
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timeoutRecv (MkChannel lock cond_lock cond local remote) timeout
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= do lift $ mutexAcquire lock
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rq <- lift $ readIORef local
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case dequeue rq of
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Nothing => -- ... no message, so wait for condition and try again with tryRecv
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do lift $ mutexRelease lock
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lift $ mutexAcquire cond_lock
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lift $ conditionWaitTimeout cond cond_lock timeout
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lift $ mutexRelease cond_lock
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res # chan <- tryRecv {ty} {next} (MkChannel lock cond_lock cond local remote)
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case res of
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Nothing => pure (Nothing # chan)
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Just res => pure (Just res # chan)
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Just (rq', Entry {any} val) =>
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do lift $ writeIORef local rq'
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lift $ mutexRelease lock
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pure (Just (believe_me {a=any} val) #
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MkChannel lock cond_lock cond local remote)
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export
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close : (1 chan : Channel Close) -> Any IO ()
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close (MkChannel _ _ _ _ _) = pure ()
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export
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fork : {p : _} -> ((1 chan : Server p) -> Any IO ()) ->
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One IO (Client p)
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fork proc
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= do (cchan, MkChannel a b c d e) <- mkChannels p
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-- deconstruct and reconstruct is a hack to work around the fact that
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-- 'run' doesn't express the function is only used once in its type, because
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-- 'Monad' and 'Applicative' don't express linearity... ugh!
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lift $ ignore $ fork (run (proc (MkChannel a b c d e)))
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pure cchan
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