Safe Haskell | None |
---|---|
Language | Haskell2010 |
- Process Effect
- Effect Type Handling
- Process Info
- Message Data
- ProcessId Type
- Process State
- Yielding
- Sending Messages
- Utilities
- Receiving Messages
- Selecting Messages to Receive
- Process Life Cycle Management
- Spawning
- Process Exit or Interrupt Recoverable
- Links
- Monitors
- Process Interrupt Recoverable Handling
- Process Operation Execution
- Exit Or Interrupt Recoverable Reasons
The message passing effect.
This module describes an abstract message passing effect, and a process effect, mimicking Erlang's process and message semantics.
Two scheduler implementations for the Process
effect are provided:
- A scheduler using
forkIO
, i.e. relying on the multi threaded GHC runtime: Control.Eff.Concurrent.Process.ForkIOScheduler - And a pure(rer) coroutine based scheduler in: Control.Eff.Concurrent.Process.SingleThreadedScheduler
Synopsis
- data Process (r :: [Type -> Type]) b where
- FlushMessages :: Process r (ResumeProcess [StrictDynamic])
- YieldProcess :: Process r (ResumeProcess ())
- SelfPid :: Process r (ResumeProcess ProcessId)
- Spawn :: ProcessTitle -> Eff (Process r ': r) () -> Process r (ResumeProcess ProcessId)
- SpawnLink :: ProcessTitle -> Eff (Process r ': r) () -> Process r (ResumeProcess ProcessId)
- Shutdown :: Interrupt NoRecovery -> Process r a
- SendShutdown :: ProcessId -> Interrupt NoRecovery -> Process r (ResumeProcess ())
- SendInterrupt :: ProcessId -> Interrupt Recoverable -> Process r (ResumeProcess ())
- SendMessage :: ProcessId -> StrictDynamic -> Process r (ResumeProcess ())
- ReceiveSelectedMessage :: forall r a. MessageSelector a -> Process r (ResumeProcess a)
- MakeReference :: Process r (ResumeProcess Int)
- Monitor :: ProcessId -> Process r (ResumeProcess MonitorReference)
- Demonitor :: MonitorReference -> Process r (ResumeProcess ())
- Link :: ProcessId -> Process r (ResumeProcess ())
- Unlink :: ProcessId -> Process r (ResumeProcess ())
- UpdateProcessDetails :: ProcessDetails -> Process r (ResumeProcess ())
- GetProcessState :: ProcessId -> Process r (ResumeProcess (Maybe (ProcessTitle, ProcessDetails, ProcessState)))
- newtype ProcessTitle = MkProcessTitle {}
- fromProcessTitle :: Lens' ProcessTitle Text
- newtype ProcessDetails = MkProcessDetails {}
- fromProcessDetails :: Lens' ProcessDetails Text
- data StrictDynamic
- toStrictDynamic :: (Typeable a, NFData a) => a -> StrictDynamic
- fromStrictDynamic :: Typeable a => StrictDynamic -> Maybe a
- unwrapStrictDynamic :: StrictDynamic -> Dynamic
- newtype Serializer message = MkSerializer {
- runSerializer :: message -> StrictDynamic
- newtype ProcessId = ProcessId {}
- fromProcessId :: Iso' ProcessId Int
- type SafeProcesses r = Process r ': r
- data ResumeProcess v where
- Interrupted :: Interrupt Recoverable -> ResumeProcess v
- ResumeWith :: a -> ResumeProcess a
- data ProcessState
- = ProcessBooting
- | ProcessIdle
- | ProcessBusy
- | ProcessBusyUpdatingDetails
- | ProcessBusySending
- | ProcessBusySendingShutdown
- | ProcessBusySendingInterrupt
- | ProcessBusyReceiving
- | ProcessBusyLinking
- | ProcessBusyUnlinking
- | ProcessBusyMonitoring
- | ProcessBusyDemonitoring
- | ProcessInterrupted
- | ProcessShuttingDown
- yieldProcess :: forall r q. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r) => Eff r ()
- sendMessage :: forall r q o. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r, Typeable o, NFData o) => ProcessId -> o -> Eff r ()
- sendAnyMessage :: forall r q. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r) => ProcessId -> StrictDynamic -> Eff r ()
- sendShutdown :: forall r q. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r) => ProcessId -> Interrupt NoRecovery -> Eff r ()
- sendInterrupt :: forall r q. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r) => ProcessId -> Interrupt Recoverable -> Eff r ()
- makeReference :: (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => Eff r Int
- receiveMessage :: forall a r q. (HasCallStack, Typeable a, NFData a, Show a, SetMember Process (Process q) r, Member Interrupts r) => Eff r a
- receiveSelectedMessage :: forall r q a. (HasCallStack, Show a, SetMember Process (Process q) r, Member Interrupts r) => MessageSelector a -> Eff r a
- flushMessages :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => Eff r [StrictDynamic]
- receiveAnyMessage :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => Eff r StrictDynamic
- receiveLoop :: forall r q a endOfLoopResult. (SetMember Process (Process q) r, HasCallStack, NFData a, Typeable a) => (Either (Interrupt Recoverable) a -> Eff r (Maybe endOfLoopResult)) -> Eff r endOfLoopResult
- receiveSelectedLoop :: forall r q a endOfLoopResult. (SetMember Process (Process q) r, HasCallStack) => MessageSelector a -> (Either (Interrupt Recoverable) a -> Eff r (Maybe endOfLoopResult)) -> Eff r endOfLoopResult
- receiveAnyLoop :: forall r q endOfLoopResult. (SetMember Process (Process q) r, HasCallStack) => (Either (Interrupt Recoverable) StrictDynamic -> Eff r (Maybe endOfLoopResult)) -> Eff r endOfLoopResult
- data MessageSelector a
- selectMessage :: Typeable t => MessageSelector t
- filterMessage :: Typeable a => (a -> Bool) -> MessageSelector a
- selectMessageWith :: Typeable a => (a -> Maybe b) -> MessageSelector b
- selectDynamicMessage :: (StrictDynamic -> Maybe a) -> MessageSelector a
- selectAnyMessage :: MessageSelector StrictDynamic
- self :: (HasCallStack, SetMember Process (Process q) r) => Eff r ProcessId
- isProcessAlive :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> Eff r Bool
- getProcessState :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> Eff r (Maybe (ProcessTitle, ProcessDetails, ProcessState))
- updateProcessDetails :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessDetails -> Eff r ()
- spawn :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessTitle -> Eff (Processes q) () -> Eff r ProcessId
- spawn_ :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessTitle -> Eff (Processes q) () -> Eff r ()
- spawnLink :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessTitle -> Eff (Processes q) () -> Eff r ProcessId
- spawnRaw :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessTitle -> Eff (SafeProcesses q) () -> Eff r ProcessId
- spawnRaw_ :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessTitle -> Eff (SafeProcesses q) () -> Eff r ()
- exitBecause :: forall r q a. (HasCallStack, SetMember Process (Process q) r) => Interrupt NoRecovery -> Eff r a
- exitNormally :: forall r q a. (HasCallStack, SetMember Process (Process q) r) => Eff r a
- exitWithError :: forall r q a. (HasCallStack, SetMember Process (Process q) r) => String -> Eff r a
- linkProcess :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> Eff r ()
- unlinkProcess :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> Eff r ()
- monitor :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> Eff r MonitorReference
- demonitor :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => MonitorReference -> Eff r ()
- data ProcessDown = ProcessDown {}
- selectProcessDown :: MonitorReference -> MessageSelector ProcessDown
- becauseProcessIsDown :: ProcessDown -> Interrupt Recoverable
- data MonitorReference = MonitorReference {}
- withMonitor :: (HasCallStack, Member Interrupts r, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> (MonitorReference -> Eff r a) -> Eff r a
- receiveWithMonitor :: (HasCallStack, Member Interrupts r, SetMember Process (Process q) r, Member Interrupts r, Typeable a, Show a) => ProcessId -> MessageSelector a -> Eff r (Either ProcessDown a)
- provideInterruptsShutdown :: forall e a. Eff (Processes e) a -> Eff (SafeProcesses e) a
- handleInterrupts :: (HasCallStack, Member Interrupts r) => (Interrupt Recoverable -> Eff r a) -> Eff r a -> Eff r a
- tryUninterrupted :: (HasCallStack, Member Interrupts r) => Eff r a -> Eff r (Either (Interrupt Recoverable) a)
- exitOnInterrupt :: (HasCallStack, Member Interrupts r, SetMember Process (Process q) r) => Eff r a -> Eff r a
- logInterrupts :: forall r. (Member Logs r, HasCallStack, Member Interrupts r) => Eff r () -> Eff r ()
- provideInterrupts :: HasCallStack => Eff (Interrupts ': r) a -> Eff r (Either (Interrupt Recoverable) a)
- mergeEitherInterruptAndExitReason :: Either (Interrupt Recoverable) (Interrupt NoRecovery) -> Interrupt NoRecovery
- interrupt :: (HasCallStack, Member Interrupts r) => Interrupt Recoverable -> Eff r a
- executeAndResume :: forall q r v. (SetMember Process (Process q) r, HasCallStack) => Process q (ResumeProcess v) -> Eff r (Either (Interrupt Recoverable) v)
- executeAndResumeOrExit :: forall r q v. (SetMember Process (Process q) r, HasCallStack) => Process q (ResumeProcess v) -> Eff r v
- executeAndResumeOrThrow :: forall q r v. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r) => Process q (ResumeProcess v) -> Eff r v
- data Interrupt (t :: ExitRecovery) where
- NormalExitRequested :: Interrupt Recoverable
- OtherProcessNotRunning :: ProcessId -> Interrupt Recoverable
- TimeoutInterrupt :: String -> Interrupt Recoverable
- LinkedProcessCrashed :: ProcessId -> Interrupt Recoverable
- ErrorInterrupt :: String -> Interrupt Recoverable
- ExitNormally :: Interrupt NoRecovery
- ExitUnhandledError :: Text -> Interrupt NoRecovery
- ExitProcessCancelled :: Interrupt NoRecovery
- interruptToExit :: Interrupt Recoverable -> Interrupt NoRecovery
- data ExitRecovery
- type RecoverableInterrupt = Interrupt Recoverable
- type Interrupts = Exc (Interrupt Recoverable)
- type Processes e = Interrupts ': SafeProcesses e
- data ExitSeverity
- = NormalExit
- | Crash
- data SomeExitReason where
- SomeExitReason :: Interrupt x -> SomeExitReason
- toExitRecovery :: Interrupt r -> ExitRecovery
- isRecoverable :: Interrupt x -> Bool
- toExitSeverity :: Interrupt e -> ExitSeverity
- isProcessDownInterrupt :: Maybe ProcessId -> Interrupt r -> Bool
- isCrash :: Interrupt x -> Bool
- toCrashReason :: Interrupt x -> Maybe Text
- fromSomeExitReason :: SomeExitReason -> Either (Interrupt NoRecovery) (Interrupt Recoverable)
- logProcessExit :: forall e x. (Member Logs e, HasCallStack) => Interrupt x -> Eff e ()
Process Effect
Effect Type Handling
data Process (r :: [Type -> Type]) b where Source #
The process effect is the basis for message passing concurrency. This effect describes an interface for concurrent, communicating isolated processes identified uniquely by a process-id.
Processes can raise exceptions that can be caught, exit gracefully or with an error, or be killed by other processes, with the option of ignoring the shutdown request.
Process Scheduling is implemented in different modules. All scheduler implementations should follow some basic rules:
- fair scheduling
- sending a message does not block
- receiving a message does block
- spawning a child blocks only a very moment
- a newly spawned process shall be scheduled before the parent process after
- the spawnRaw
- when the first process exists, all process should be killed immediately
FlushMessages :: Process r (ResumeProcess [StrictDynamic]) | Remove all messages from the process' message queue |
YieldProcess :: Process r (ResumeProcess ()) | In cooperative schedulers, this will give processing time to the scheduler. Every other operation implicitly serves the same purpose. Since: 0.12.0 |
SelfPid :: Process r (ResumeProcess ProcessId) | Return the current |
Spawn :: ProcessTitle -> Eff (Process r ': r) () -> Process r (ResumeProcess ProcessId) | Start a new process, the new process will execute an effect, the function
will return immediately with a |
SpawnLink :: ProcessTitle -> Eff (Process r ': r) () -> Process r (ResumeProcess ProcessId) | Start a new process, and Since: 0.12.0 |
Shutdown :: Interrupt NoRecovery -> Process r a | Shutdown the process; irregardless of the exit reason, this function never returns, |
SendShutdown :: ProcessId -> Interrupt NoRecovery -> Process r (ResumeProcess ()) | Shutdown another process immediately, the other process has no way of handling this! |
SendInterrupt :: ProcessId -> Interrupt Recoverable -> Process r (ResumeProcess ()) | Request that another a process interrupts. The targeted process is interrupted
and gets an |
SendMessage :: ProcessId -> StrictDynamic -> Process r (ResumeProcess ()) | Send a message to a process addressed by the |
ReceiveSelectedMessage :: forall r a. MessageSelector a -> Process r (ResumeProcess a) | Receive a message that matches a criteria.
This should block until an a message was received. The message is returned
as a |
MakeReference :: Process r (ResumeProcess Int) | Generate a unique |
Monitor :: ProcessId -> Process r (ResumeProcess MonitorReference) | Monitor another process. When the monitored process exits a
Since: 0.12.0 |
Demonitor :: MonitorReference -> Process r (ResumeProcess ()) | Remove a monitor. Since: 0.12.0 |
Link :: ProcessId -> Process r (ResumeProcess ()) | Connect the calling process to another process, such that
if one of the processes crashes (i.e. Since: 0.12.0 |
Unlink :: ProcessId -> Process r (ResumeProcess ()) | Unlink the calling process from the other process. Since: 0.12.0 |
UpdateProcessDetails :: ProcessDetails -> Process r (ResumeProcess ()) | Update the |
GetProcessState :: ProcessId -> Process r (ResumeProcess (Maybe (ProcessTitle, ProcessDetails, ProcessState))) | Get the |
Instances
Process Info
newtype ProcessTitle Source #
A short title for a Process
for logging purposes.
Since: 0.24.1
Instances
fromProcessTitle :: Lens' ProcessTitle Text Source #
An isomorphism lens for the ProcessTitle
Since: 0.24.1
newtype ProcessDetails Source #
A multi-line text describing the current state of a process for debugging purposes.
Since: 0.24.1
Instances
fromProcessDetails :: Lens' ProcessDetails Text Source #
An isomorphism lens for the ProcessDetails
Since: 0.24.1
Message Data
data StrictDynamic Source #
Data flows between Process
es via these messages.
This is just a newtype wrapper around Dynamic
.
The reason this type exists is to force construction through the code in this
module, which always evaluates a message to normal form before
sending it to another process.
Since: 0.22.0
Instances
Show StrictDynamic Source # | |
Defined in Control.Eff.Concurrent.Process showsPrec :: Int -> StrictDynamic -> ShowS # show :: StrictDynamic -> String # showList :: [StrictDynamic] -> ShowS # | |
NFData StrictDynamic Source # | |
Defined in Control.Eff.Concurrent.Process rnf :: StrictDynamic -> () # |
toStrictDynamic :: (Typeable a, NFData a) => a -> StrictDynamic Source #
Deeply evaluate the given value and wrap it into a StrictDynamic
.
Since: 0.22.0
fromStrictDynamic :: Typeable a => StrictDynamic -> Maybe a Source #
Convert a StrictDynamic
back to a value.
Since: 0.22.0
unwrapStrictDynamic :: StrictDynamic -> Dynamic Source #
Convert a StrictDynamic
back to an unwrapped Dynamic
.
Since: 0.22.0
newtype Serializer message Source #
Serialize a message
into a StrictDynamic
value to be sent via sendAnyMessage
.
This indirection allows, among other things, the composition of
Server
s.
Since: 0.24.1
MkSerializer | |
|
Instances
Contravariant Serializer Source # | |
Defined in Control.Eff.Concurrent.Process contramap :: (a -> b) -> Serializer b -> Serializer a # (>$) :: b -> Serializer b -> Serializer a # |
ProcessId Type
Each process is identified by a single process id, that stays constant throughout the life cycle of a process. Also, message sending relies on these values to address messages to processes.
Instances
Bounded ProcessId Source # | |
Enum ProcessId Source # | |
Defined in Control.Eff.Concurrent.Process succ :: ProcessId -> ProcessId # pred :: ProcessId -> ProcessId # fromEnum :: ProcessId -> Int # enumFrom :: ProcessId -> [ProcessId] # enumFromThen :: ProcessId -> ProcessId -> [ProcessId] # enumFromTo :: ProcessId -> ProcessId -> [ProcessId] # enumFromThenTo :: ProcessId -> ProcessId -> ProcessId -> [ProcessId] # | |
Eq ProcessId Source # | |
Integral ProcessId Source # | |
Defined in Control.Eff.Concurrent.Process | |
Num ProcessId Source # | |
Defined in Control.Eff.Concurrent.Process | |
Ord ProcessId Source # | |
Defined in Control.Eff.Concurrent.Process | |
Read ProcessId Source # | |
Real ProcessId Source # | |
Defined in Control.Eff.Concurrent.Process toRational :: ProcessId -> Rational # | |
Show ProcessId Source # | |
NFData ProcessId Source # | |
Defined in Control.Eff.Concurrent.Process |
type SafeProcesses r = Process r ': r Source #
Cons Process
onto a list of effects. This is called SafeProcesses
because
the the actions cannot be interrupted in.
data ResumeProcess v where Source #
Every Process
action returns it's actual result wrapped in this type. It
will allow to signal errors as well as pass on normal results such as
incoming messages.
Interrupted :: Interrupt Recoverable -> ResumeProcess v | The current operation of the process was interrupted with a
|
ResumeWith :: a -> ResumeProcess a | The process may resume to do work, using the given result. |
Instances
Process State
data ProcessState Source #
The state that a Process
is currently in.
ProcessBooting | The process has just been started but not scheduled yet. |
ProcessIdle | The process yielded it's time slice |
ProcessBusy | The process is busy with non-blocking |
ProcessBusyUpdatingDetails | The process is busy with |
ProcessBusySending | The process is busy with sending a message |
ProcessBusySendingShutdown | The process is busy with killing |
ProcessBusySendingInterrupt | The process is busy with killing |
ProcessBusyReceiving | The process blocked by a |
ProcessBusyLinking | The process blocked by a |
ProcessBusyUnlinking | The process blocked by a |
ProcessBusyMonitoring | The process blocked by a |
ProcessBusyDemonitoring | The process blocked by a |
ProcessInterrupted | The process was interrupted |
ProcessShuttingDown | The process was shutdown or crashed |
Instances
Yielding
yieldProcess :: forall r q. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r) => Eff r () Source #
Use executeAndResumeOrExit
to execute YieldProcess
. Refer to YieldProcess
for more information.
Sending Messages
sendMessage :: forall r q o. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r, Typeable o, NFData o) => ProcessId -> o -> Eff r () Source #
Send a message to a process addressed by the ProcessId
.
See SendMessage
.
The message will be reduced to normal form (rnf
) by/in the caller process.
sendAnyMessage :: forall r q. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r) => ProcessId -> StrictDynamic -> Eff r () Source #
Send a Dynamic
value to a process addressed by the ProcessId
.
See SendMessage
.
sendShutdown :: forall r q. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r) => ProcessId -> Interrupt NoRecovery -> Eff r () Source #
Exit a process addressed by the ProcessId
. The process will exit,
it might do some cleanup, but is ultimately unrecoverable.
See SendShutdown
.
sendInterrupt :: forall r q. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r) => ProcessId -> Interrupt Recoverable -> Eff r () Source #
Interrupts a process addressed by the ProcessId
. The process might exit,
or it may continue.
| Like sendInterrupt
, but also return True
iff the process to exit exists.
Utilities
makeReference :: (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => Eff r Int Source #
Generate a unique Int
for the current process.
Receiving Messages
receiveMessage :: forall a r q. (HasCallStack, Typeable a, NFData a, Show a, SetMember Process (Process q) r, Member Interrupts r) => Eff r a Source #
Receive and cast the message to some Typeable
instance.
See ReceiveSelectedMessage
for more documentation.
This will wait for a message of the return type using receiveSelectedMessage
receiveSelectedMessage :: forall r q a. (HasCallStack, Show a, SetMember Process (Process q) r, Member Interrupts r) => MessageSelector a -> Eff r a Source #
Block until a message was received, that is not Nothing
after applying
a callback to it.
See ReceiveSelectedMessage
for more documentation.
flushMessages :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => Eff r [StrictDynamic] Source #
Remove and return all messages currently enqueued in the process message queue.
Since: 0.12.0
receiveAnyMessage :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => Eff r StrictDynamic Source #
Block until a message was received.
See ReceiveSelectedMessage
for more documentation.
receiveLoop :: forall r q a endOfLoopResult. (SetMember Process (Process q) r, HasCallStack, NFData a, Typeable a) => (Either (Interrupt Recoverable) a -> Eff r (Maybe endOfLoopResult)) -> Eff r endOfLoopResult Source #
Like receiveSelectedLoop
but refined to casting to a specific Typeable
using selectMessage
.
receiveSelectedLoop :: forall r q a endOfLoopResult. (SetMember Process (Process q) r, HasCallStack) => MessageSelector a -> (Either (Interrupt Recoverable) a -> Eff r (Maybe endOfLoopResult)) -> Eff r endOfLoopResult Source #
Enter a loop to receive messages and pass them to a callback, until the
function returns Just
a result.
Only the messages of the given type will be received.
If the process is interrupted by an exception of by a SendShutdown
from
another process, with an exit reason that satisfies isRecoverable
, then
the callback will be invoked with
, otherwise the
process will be exited with the same reason using Left
Interrupt
exitBecause
.
See also ReceiveSelectedMessage
for more documentation.
receiveAnyLoop :: forall r q endOfLoopResult. (SetMember Process (Process q) r, HasCallStack) => (Either (Interrupt Recoverable) StrictDynamic -> Eff r (Maybe endOfLoopResult)) -> Eff r endOfLoopResult Source #
Like receiveSelectedLoop
but not selective.
See also selectAnyMessage
, receiveSelectedLoop
.
Selecting Messages to Receive
data MessageSelector a Source #
A function that decided if the next message will be received by
ReceiveSelectedMessage
. It conveniently is an instance of
Alternative
so the message selector can be combined:
>
> selectInt :: MessageSelector Int
> selectInt = selectMessage
>
> selectString :: MessageSelector String
> selectString = selectMessage
>
> selectIntOrString :: MessageSelector (Either Int String)
> selectIntOrString =
> Left $ selectTimeout| Right $ selectString
Instances
selectMessage :: Typeable t => MessageSelector t Source #
Create a message selector for a value that can be obtained by fromStrictDynamic
.
Since: 0.9.1
filterMessage :: Typeable a => (a -> Bool) -> MessageSelector a Source #
Create a message selector from a predicate.
Since: 0.9.1
selectMessageWith :: Typeable a => (a -> Maybe b) -> MessageSelector b Source #
Select a message of type a
and apply the given function to it.
If the function returns Just
The ReceiveSelectedMessage
function will
return the result (sans Maybe
).
Since: 0.9.1
selectDynamicMessage :: (StrictDynamic -> Maybe a) -> MessageSelector a Source #
Create a message selector.
Since: 0.9.1
selectAnyMessage :: MessageSelector StrictDynamic Source #
Create a message selector that will match every message. This is lazy
because the result is not force
ed.
Since: 0.9.1
Process Life Cycle Management
self :: (HasCallStack, SetMember Process (Process q) r) => Eff r ProcessId Source #
Returns the ProcessId
of the current process.
isProcessAlive :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> Eff r Bool Source #
Return True
if the process is alive.
Since: 0.12.0
getProcessState :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> Eff r (Maybe (ProcessTitle, ProcessDetails, ProcessState)) Source #
Return the ProcessTitle
, ProcessDetails
and ProcessState
,
for the given process, if the process is alive.
Since: 0.24.1
updateProcessDetails :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessDetails -> Eff r () Source #
Replace the ProcessDetails
of the process.
Since: 0.24.1
Spawning
spawn :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessTitle -> Eff (Processes q) () -> Eff r ProcessId Source #
Start a new process, the new process will execute an effect, the function
will return immediately with a ProcessId
. If the new process is
interrupted, the process will Shutdown
with the Interrupt
wrapped in interruptToExit
. For specific use cases it might be better to use
spawnRaw
.
spawn_ :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessTitle -> Eff (Processes q) () -> Eff r () Source #
Like spawn
but return ()
.
spawnLink :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessTitle -> Eff (Processes q) () -> Eff r ProcessId Source #
Start a new process, and immediately link to it.
Since: 0.12.0
spawnRaw :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessTitle -> Eff (SafeProcesses q) () -> Eff r ProcessId Source #
Start a new process, the new process will execute an effect, the function
will return immediately with a ProcessId
. The spawned process has only the
raw SafeProcesses
effects. For non-library code spawn
might be better
suited.
spawnRaw_ :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessTitle -> Eff (SafeProcesses q) () -> Eff r () Source #
Like spawnRaw
but return ()
.
Process Exit or Interrupt Recoverable
exitBecause :: forall r q a. (HasCallStack, SetMember Process (Process q) r) => Interrupt NoRecovery -> Eff r a Source #
Exit the process with a Interrupt
.
exitNormally :: forall r q a. (HasCallStack, SetMember Process (Process q) r) => Eff r a Source #
Exit the process.
exitWithError :: forall r q a. (HasCallStack, SetMember Process (Process q) r) => String -> Eff r a Source #
Exit the process with an error.
Links
linkProcess :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> Eff r () Source #
Connect the calling process to another process, such that
if one of the processes crashes (i.e. isCrash
returns True
), the other
is shutdown with the Interrupt
LinkedProcessCrashed
.
Since: 0.12.0
unlinkProcess :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> Eff r () Source #
Unlink the calling process from the other process.
Since: 0.12.0
Monitors
monitor :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> Eff r MonitorReference Source #
Monitor another process. When the monitored process exits a
ProcessDown
is sent to the calling process.
The return value is a unique identifier for that monitor.
There can be multiple monitors on the same process,
and a message for each will be sent.
If the process is already dead, the ProcessDown
message
will be sent immediately, without exit reason
Since: 0.12.0
demonitor :: forall r q. (HasCallStack, SetMember Process (Process q) r, Member Interrupts r) => MonitorReference -> Eff r () Source #
Remove a monitor created with monitor
.
Since: 0.12.0
data ProcessDown Source #
A monitored process exited. This message is sent to a process by the scheduler, when a process that was monitored died.
Since: 0.12.0
Instances
selectProcessDown :: MonitorReference -> MessageSelector ProcessDown Source #
A MessageSelector
for the ProcessDown
message of a specific
process.
Since: 0.12.0
becauseProcessIsDown :: ProcessDown -> Interrupt Recoverable Source #
Make an Interrupt
for a ProcessDown
message.
For example: doSomething >>= either (interrupt . becauseProcessIsDown) return
Since: 0.12.0
data MonitorReference Source #
A value that contains a unique reference of a process monitoring.
Since: 0.12.0
Instances
withMonitor :: (HasCallStack, Member Interrupts r, SetMember Process (Process q) r, Member Interrupts r) => ProcessId -> (MonitorReference -> Eff r a) -> Eff r a Source #
receiveWithMonitor :: (HasCallStack, Member Interrupts r, SetMember Process (Process q) r, Member Interrupts r, Typeable a, Show a) => ProcessId -> MessageSelector a -> Eff r (Either ProcessDown a) Source #
A MessageSelector
for receiving either a monitor of the
given process or another message.
Since: 0.12.0
Process Interrupt Recoverable Handling
provideInterruptsShutdown :: forall e a. Eff (Processes e) a -> Eff (SafeProcesses e) a Source #
Handle all Interrupt
s of an Processes
by
wrapping them up in interruptToExit
and then do a process Shutdown
.
handleInterrupts :: (HasCallStack, Member Interrupts r) => (Interrupt Recoverable -> Eff r a) -> Eff r a -> Eff r a Source #
Handle Interrupt
s arising during process operations, e.g.
when a linked process crashes while we wait in a receiveSelectedMessage
via a call to interrupt
.
tryUninterrupted :: (HasCallStack, Member Interrupts r) => Eff r a -> Eff r (Either (Interrupt Recoverable) a) Source #
Like handleInterrupts
, but instead of passing the Interrupt
to a handler function, Either
is returned.
Since: 0.13.2
exitOnInterrupt :: (HasCallStack, Member Interrupts r, SetMember Process (Process q) r) => Eff r a -> Eff r a Source #
Handle Interrupt
s arising during process operations, e.g.
when a linked process crashes while we wait in a receiveSelectedMessage
via a call to interrupt
.
logInterrupts :: forall r. (Member Logs r, HasCallStack, Member Interrupts r) => Eff r () -> Eff r () Source #
Handle interrupts by logging them with logProcessExit
and otherwise
ignoring them.
provideInterrupts :: HasCallStack => Eff (Interrupts ': r) a -> Eff r (Either (Interrupt Recoverable) a) Source #
Handle Interrupt
s arising during process operations, e.g.
when a linked process crashes while we wait in a receiveSelectedMessage
via a call to interrupt
.
mergeEitherInterruptAndExitReason :: Either (Interrupt Recoverable) (Interrupt NoRecovery) -> Interrupt NoRecovery Source #
Wrap all (left) Interrupt
s into interruptToExit
and
return the (right) NoRecovery
Interrupt
s as is.
interrupt :: (HasCallStack, Member Interrupts r) => Interrupt Recoverable -> Eff r a Source #
Throw an Interrupt
, can be handled by handleInterrupts
or
exitOnInterrupt
or provideInterrupts
.
Process Operation Execution
executeAndResume :: forall q r v. (SetMember Process (Process q) r, HasCallStack) => Process q (ResumeProcess v) -> Eff r (Either (Interrupt Recoverable) v) Source #
Execute a and action and return the result;
if the process is interrupted by an error or exception, or an explicit
shutdown from another process, or through a crash of a linked process, i.e.
whenever the exit reason satisfies isRecoverable
, return the exit reason.
executeAndResumeOrExit :: forall r q v. (SetMember Process (Process q) r, HasCallStack) => Process q (ResumeProcess v) -> Eff r v Source #
Execute a Process
action and resume the process, exit
the process when an Interrupts
was raised. Use executeAndResume
to catch
interrupts.
executeAndResumeOrThrow :: forall q r v. (SetMember Process (Process q) r, HasCallStack, Member Interrupts r) => Process q (ResumeProcess v) -> Eff r v Source #
Execute a Process
action and resume the process, exit
the process when an Interrupts
was raised. Use executeAndResume
to catch
interrupts.
Exit Or Interrupt Recoverable Reasons
data Interrupt (t :: ExitRecovery) where Source #
A sum-type with reasons for why a process operation, such as receiving messages, is interrupted in the scheduling loop.
This includes errors, that can occur when scheduling messages.
Since: 0.23.0
NormalExitRequested :: Interrupt Recoverable | A process has finished a unit of work and might exit or work on
something else. This is primarily used for interrupting infinite
server loops, allowing for additional cleanup work before
exiting (e.g. with Since: 0.13.2 |
OtherProcessNotRunning :: ProcessId -> Interrupt Recoverable | A process that should be running was not running. |
TimeoutInterrupt :: String -> Interrupt Recoverable | A |
LinkedProcessCrashed :: ProcessId -> Interrupt Recoverable | A linked process is down |
ErrorInterrupt :: String -> Interrupt Recoverable | An exit reason that has an error message and is |
ExitNormally :: Interrupt NoRecovery | A process function returned or exited without any error. |
ExitUnhandledError :: Text -> Interrupt NoRecovery | An error causes the process to exit immediately.
For example an unexpected runtime exception was thrown, i.e. an exception
derived from |
ExitProcessCancelled :: Interrupt NoRecovery | A process shall exit immediately, without any cleanup was cancelled (e.g. killed, in |
Instances
interruptToExit :: Interrupt Recoverable -> Interrupt NoRecovery Source #
Return either ExitNormally
or interruptToExit
from a Recoverable
Interrupt
;
If the Interrupt
is NormalExitRequested
then return ExitNormally
data ExitRecovery Source #
This kind is used to indicate if a Interrupt
can be treated like
a short interrupt which can be handled or ignored.
Instances
type RecoverableInterrupt = Interrupt Recoverable Source #
Interrupt
s which are Recoverable
.
type Interrupts = Exc (Interrupt Recoverable) Source #
Exc
eptions containing Interrupt
s.
See handleInterrupts
, exitOnInterrupt
or provideInterrupts
type Processes e = Interrupts ': SafeProcesses e Source #
This adds a layer of the Interrupts
effect on top of Processes
data ExitSeverity Source #
This value indicates whether a process exited in way consistent with the planned behaviour or not.
Instances
data SomeExitReason where Source #
An existential wrapper around Interrupt
SomeExitReason :: Interrupt x -> SomeExitReason |
Instances
Eq SomeExitReason Source # | |
Defined in Control.Eff.Concurrent.Process (==) :: SomeExitReason -> SomeExitReason -> Bool # (/=) :: SomeExitReason -> SomeExitReason -> Bool # | |
Ord SomeExitReason Source # | |
Defined in Control.Eff.Concurrent.Process compare :: SomeExitReason -> SomeExitReason -> Ordering # (<) :: SomeExitReason -> SomeExitReason -> Bool # (<=) :: SomeExitReason -> SomeExitReason -> Bool # (>) :: SomeExitReason -> SomeExitReason -> Bool # (>=) :: SomeExitReason -> SomeExitReason -> Bool # max :: SomeExitReason -> SomeExitReason -> SomeExitReason # min :: SomeExitReason -> SomeExitReason -> SomeExitReason # | |
Show SomeExitReason Source # | |
Defined in Control.Eff.Concurrent.Process showsPrec :: Int -> SomeExitReason -> ShowS # show :: SomeExitReason -> String # showList :: [SomeExitReason] -> ShowS # | |
NFData SomeExitReason Source # | |
Defined in Control.Eff.Concurrent.Process rnf :: SomeExitReason -> () # |
toExitRecovery :: Interrupt r -> ExitRecovery Source #
Get the ExitRecovery
isRecoverable :: Interrupt x -> Bool Source #
A predicate for recoverable exit reasons. This predicate defines the
exit reasons which functions such as executeAndResume
toExitSeverity :: Interrupt e -> ExitSeverity Source #
Get the ExitSeverity
of a Interrupt
.
isProcessDownInterrupt :: Maybe ProcessId -> Interrupt r -> Bool Source #
A predicate for linked process crashes.
isCrash :: Interrupt x -> Bool Source #
A predicate for crashes. A crash happens when a process exits
with an Interrupt
other than ExitNormally
toCrashReason :: Interrupt x -> Maybe Text Source #
Print a Interrupt
to Just
a formatted String
when isCrash
is True
.
This can be useful in combination with view patterns, e.g.:
logCrash :: Interrupt -> Eff e () logCrash (toCrashReason -> Just reason) = logError reason logCrash _ = return ()
Though this can be improved to:
logCrash = traverse_ logError . toCrashReason
fromSomeExitReason :: SomeExitReason -> Either (Interrupt NoRecovery) (Interrupt Recoverable) Source #
Partition a SomeExitReason
back into either a NoRecovery
or a Recoverable
Interrupt
logProcessExit :: forall e x. (Member Logs e, HasCallStack) => Interrupt x -> Eff e () Source #
Log the Interrupt
s