Safe Haskell	Safe-Inferred
Language	Haskell2010

Effectful.Concurrent.QSem

Contents

Effect
- Handlers
QSem

Description

Lifted Control.Concurrent.QSem.

Synopsis

data Concurrent :: Effect
runConcurrent :: IOE :> es => Eff (Concurrent ': es) a -> Eff es a
data QSem
newQSem :: Concurrent :> es => Int -> Eff es QSem
waitQSem :: Concurrent :> es => QSem -> Eff es ()
signalQSem :: Concurrent :> es => QSem -> Eff es ()

Effect

data Concurrent :: Effect Source #

Provide the ability to run Eff computations concurrently in multiple threads and communicate between them.

Warning: unless you stick to high level functions from the withAsync family, the Concurrent effect makes it possible to escape the scope of any scoped effect operation. Consider the following:

>>> import qualified Effectful.Reader.Static as R

>>> printAsk msg = liftIO . putStrLn . (msg ++) . (": " ++) =<< R.ask

>>> :{
  runEff . R.runReader "GLOBAL" . runConcurrent $ do
    a <- R.local (const "LOCAL") $ do
      a <- async $ do
        printAsk "child (first)"
        threadDelay 20000
        printAsk "child (second)"
      threadDelay 10000
      printAsk "parent (inside)"
      pure a
    printAsk "parent (outside)"
    wait a
:}
child (first): LOCAL
parent (inside): LOCAL
parent (outside): GLOBAL
child (second): LOCAL

Note that the asynchronous computation doesn't respect the scope of local, i.e. the child thread still behaves like it's inside the local block, even though the parent thread already got out of it.

This is because the value provided by the Reader effect is thread local, i.e. each thread manages its own version of it. For the Reader it is the only reasonable behavior, it wouldn't be very useful if its "read only" value was affected by calls to local from its parent or child threads.

However, the cut isn't so clear if it comes to effects that provide access to a mutable state. That's why statically dispatched State and Writer effects come in two flavors, local and shared:

>>> import qualified Effectful.State.Static.Local as SL
>>> :{
  runEff . SL.execState "Hi" . runConcurrent $ do
    replicateConcurrently_ 3 $ SL.modify (++ "!")
:}
"Hi"

>>> import qualified Effectful.State.Static.Shared as SS
>>> :{
  runEff . SS.execState "Hi" . runConcurrent $ do
    replicateConcurrently_ 3 $ SS.modify (++ "!")
:}
"Hi!!!"

In the first example state updates made concurrently are not reflected in the parent thread because the value is thread local, but in the second example they are, because the value is shared.

Instances

Instances details

type DispatchOf Concurrent Source #
Instance details Defined in Effectful.Concurrent.Effect type DispatchOf Concurrent = 'Static 'WithSideEffects
data StaticRep Concurrent Source #
Instance details Defined in Effectful.Concurrent.Effect data StaticRep Concurrent = Concurrent

Handlers

runConcurrent :: IOE :> es => Eff (Concurrent ': es) a -> Eff es a Source #

Run the Concurrent effect.

QSem

data QSem #

QSem is a quantity semaphore in which the resource is acquired and released in units of one. It provides guaranteed FIFO ordering for satisfying blocked waitQSem calls.

The pattern

  bracket_ waitQSem signalQSem (...)

is safe; it never loses a unit of the resource.

newQSem :: Concurrent :> es => Int -> Eff es QSem Source #

Lifted newQSem.

waitQSem :: Concurrent :> es => QSem -> Eff es () Source #

Lifted waitQSem.

signalQSem :: Concurrent :> es => QSem -> Eff es () Source #

Lifted signalQSem.