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https://github.com/idris-lang/Idris2.git
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210 lines
6.8 KiB
Idris
210 lines
6.8 KiB
Idris
module System.Concurrency
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import Data.IORef
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%default total
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-- At the moment this is pretty fundamentally tied to the Scheme RTS.
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-- Given that different back ends will have entirely different threading
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-- models, it might be unavoidable, but we might want to think about possible
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-- primitives that back ends should support.
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-- Thread mailboxes
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%foreign "scheme:blodwen-set-thread-data"
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prim__setThreadData : {a : Type} -> a -> PrimIO ()
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%foreign "scheme:blodwen-get-thread-data"
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prim__getThreadData : (a : Type) -> PrimIO a
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export
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setThreadData : HasIO io => {a : Type} -> a -> io ()
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setThreadData val = primIO (prim__setThreadData val)
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export
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getThreadData : HasIO io => (a : Type) -> io a
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getThreadData a = primIO (prim__getThreadData a)
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-- Mutexes
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export
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data Mutex : Type where [external]
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%foreign "scheme:blodwen-make-mutex"
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prim__makeMutex : PrimIO Mutex
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%foreign "scheme:blodwen-mutex-acquire"
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prim__mutexAcquire : Mutex -> PrimIO ()
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%foreign "scheme:blodwen-mutex-release"
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prim__mutexRelease : Mutex -> PrimIO ()
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||| Creates and returns a new mutex.
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export
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makeMutex : HasIO io => io Mutex
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makeMutex = primIO prim__makeMutex
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||| Acquires the mutex identified by `mutex`. The thread blocks until the mutex
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||| has been acquired.
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|||
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||| Mutexes are recursive in Posix threads terminology, which means that the
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||| calling thread can use mutex-acquire to (re)acquire a mutex it already has.
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||| In this case, an equal number of mutex-release calls is necessary to release
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||| the mutex.
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export
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mutexAcquire : HasIO io => Mutex -> io ()
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mutexAcquire m = primIO (prim__mutexAcquire m)
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||| Releases the mutex identified by `mutex`. Unpredictable behavior results if
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||| the mutex is not owned by the calling thread.
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export
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mutexRelease : HasIO io => Mutex -> io ()
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mutexRelease m = primIO (prim__mutexRelease m)
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-- Condition variables
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export
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data Condition : Type where [external]
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%foreign "scheme,racket:blodwen-make-cv"
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"scheme,chez:blodwen-make-condition"
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prim__makeCondition : PrimIO Condition
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%foreign "scheme,racket:blodwen-cv-wait"
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"scheme,chez:blodwen-condition-wait"
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prim__conditionWait : Condition -> Mutex -> PrimIO ()
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%foreign "scheme,chez:blodwen-condition-wait-timeout"
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-- "scheme,racket:blodwen-cv-wait-timeout"
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prim__conditionWaitTimeout : Condition -> Mutex -> Int -> PrimIO ()
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%foreign "scheme,racket:blodwen-cv-signal"
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"scheme,chez:blodwen-condition-signal"
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prim__conditionSignal : Condition -> PrimIO ()
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%foreign "scheme,racket:blodwen-cv-broadcast"
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"scheme,chez:blodwen-condition-broadcast"
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prim__conditionBroadcast : Condition -> PrimIO ()
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||| Creates and returns a new condition variable.
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export
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makeCondition : HasIO io => io Condition
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makeCondition = primIO prim__makeCondition
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||| Waits up to the specified timeout for the condition identified by the
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||| condition variable `cond`. The calling thread must have acquired the mutex
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||| identified by `mutex` at the time `conditionWait` is called. The mutex is
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||| released as a side effect of the call to `conditionWait`. When a thread is
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||| later released from the condition variable by one of the procedures
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||| described below, the mutex is reacquired and `conditionWait` returns.
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export
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conditionWait : HasIO io => Condition -> Mutex -> io ()
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conditionWait cond mutex = primIO (prim__conditionWait cond mutex)
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||| Variant of `conditionWait` with a timeout in microseconds.
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||| When the timeout expires, the thread is released, `mutex` is reacquired, and
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||| `conditionWaitTimeout` returns.
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export
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conditionWaitTimeout : HasIO io => Condition -> Mutex -> Int -> io ()
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conditionWaitTimeout cond mutex timeout = primIO (prim__conditionWaitTimeout cond mutex timeout)
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||| Releases one of the threads waiting for the condition identified by `cond`.
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export
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conditionSignal : HasIO io => Condition -> io ()
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conditionSignal c = primIO (prim__conditionSignal c)
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||| Releases all of the threads waiting for the condition identified by `cond`.
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export
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conditionBroadcast : HasIO io => Condition -> io ()
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conditionBroadcast c = primIO (prim__conditionBroadcast c)
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-- Semaphores
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export
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data Semaphore : Type where [external]
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%foreign "scheme:blodwen-make-semaphore"
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prim__makeSemaphore : Int -> PrimIO Semaphore
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%foreign "scheme:blodwen-semaphore-post"
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prim__semaphorePost : Semaphore -> PrimIO ()
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%foreign "scheme:blodwen-semaphore-wait"
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prim__semaphoreWait : Semaphore -> PrimIO ()
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||| Creates and returns a new semaphore with the counter initially set to `init`.
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export
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makeSemaphore : HasIO io => Int -> io Semaphore
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makeSemaphore init = primIO (prim__makeSemaphore init)
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||| Increments the semaphore's internal counter.
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export
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semaphorePost : HasIO io => Semaphore -> io ()
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semaphorePost sema = primIO (prim__semaphorePost sema)
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||| Blocks until the internal counter for semaphore sema is non-zero. When the
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||| counter is non-zero, it is decremented and `semaphoreWait` returns.
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export
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semaphoreWait : HasIO io => Semaphore -> io ()
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semaphoreWait sema = primIO (prim__semaphoreWait sema)
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-- Barriers
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||| A barrier enables multiple threads to synchronize the beginning of some
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export
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data Barrier : Type where [external]
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%foreign "scheme:blodwen-make-barrier"
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prim__makeBarrier : Int -> PrimIO Barrier
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%foreign "scheme:blodwen-barrier-wait"
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prim__barrierWait : Barrier -> PrimIO ()
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||| Creates a new barrier that can block a given number of threads.
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export
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makeBarrier : HasIO io => Int -> io Barrier
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makeBarrier numThreads = primIO (prim__makeBarrier numThreads)
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||| Blocks the current thread until all threads have rendezvoused here.
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export
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barrierWait : HasIO io => Barrier -> io ()
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barrierWait barrier = primIO (prim__barrierWait barrier)
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-- Channels
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export
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data Channel : Type -> Type where [external]
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%foreign "scheme:blodwen-make-channel"
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prim__makeChannel : PrimIO (Channel a)
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%foreign "scheme:blodwen-channel-get"
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prim__channelGet : Channel a -> PrimIO a
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%foreign "scheme:blodwen-channel-put"
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prim__channelPut : Channel a -> a -> PrimIO ()
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||| Creates and returns a new channel. The channel can be used with channelGet
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||| to receive a value through the channel. The channel can be used with
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export
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makeChannel : HasIO io => io (Channel a)
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makeChannel = primIO prim__makeChannel
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||| Blocks until a sender is ready to provide a value through `chan`. The result
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export
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channelGet : HasIO io => Channel a -> io a
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channelGet chan = primIO (prim__channelGet chan)
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||| CAUTION: Different behaviour under chez and racket:
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||| - Chez: Puts a value on the channel. If there already is a value, blocks
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||| until that value has been received.
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||| - Racket: Blocks until a receiver is ready to accept the value `val` through
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export
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channelPut : HasIO io => Channel a -> a -> io ()
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channelPut chan val = primIO (prim__channelPut chan val)
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