Copyright  Copyright (c) 20092016 David Sorokin <david.sorokin@gmail.com> 

License  BSD3 
Maintainer  David Sorokin <david.sorokin@gmail.com> 
Stability  experimental 
Safe Haskell  None 
Language  Haskell2010 
Tested with: GHC 8.0.1
This module defines the signal which we can subscribe handlers to. These handlers can be disposed. The signal is triggered in the current time point actuating the corresponded computations from the handlers.
 data Signal m a = Signal {
 handleSignal :: (a > Event m ()) > Event m (DisposableEvent m)
 handleSignal_ :: MonadDES m => Signal m a > (a > Event m ()) > Event m ()
 data SignalSource m a
 newSignalSource :: MonadDES m => Simulation m (SignalSource m a)
 newSignalSource0 :: (MonadDES m, MonadRef0 m) => m (SignalSource m a)
 publishSignal :: SignalSource m a > Signal m a
 triggerSignal :: SignalSource m a > a > Event m ()
 mapSignal :: MonadDES m => (a > b) > Signal m a > Signal m b
 mapSignalM :: MonadDES m => (a > Event m b) > Signal m a > Signal m b
 apSignal :: MonadDES m => Event m (a > b) > Signal m a > Signal m b
 filterSignal :: MonadDES m => (a > Bool) > Signal m a > Signal m a
 filterSignal_ :: MonadDES m => (a > Bool) > Signal m a > Signal m ()
 filterSignalM :: MonadDES m => (a > Event m Bool) > Signal m a > Signal m a
 filterSignalM_ :: MonadDES m => (a > Event m Bool) > Signal m a > Signal m ()
 emptySignal :: MonadDES m => Signal m a
 merge2Signals :: MonadDES m => Signal m a > Signal m a > Signal m a
 merge3Signals :: MonadDES m => Signal m a > Signal m a > Signal m a > Signal m a
 merge4Signals :: MonadDES m => Signal m a > Signal m a > Signal m a > Signal m a > Signal m a
 merge5Signals :: MonadDES m => Signal m a > Signal m a > Signal m a > Signal m a > Signal m a > Signal m a
 arrivalSignal :: MonadDES m => Signal m a > Signal m (Arrival a)
 delaySignal :: MonadDES m => Double > Signal m a > Signal m a
 delaySignalM :: MonadDES m => Event m Double > Signal m a > Signal m a
 newSignalInTimes :: MonadDES m => [Double] > Event m (Signal m Double)
 newSignalInIntegTimes :: MonadDES m => Event m (Signal m Double)
 newSignalInStartTime :: MonadDES m => Event m (Signal m Double)
 newSignalInStopTime :: MonadDES m => Event m (Signal m Double)
 data Signalable m a = Signalable {
 readSignalable :: Event m a
 signalableChanged_ :: Signal m ()
 signalableChanged :: MonadDES m => Signalable m a > Signal m a
 emptySignalable :: (MonadDES m, Monoid a) => Signalable m a
 appendSignalable :: (MonadDES m, Monoid a) => Signalable m a > Signalable m a > Signalable m a
 traceSignal :: MonadDES m => String > Signal m a > Signal m a
Handling and Triggering Signal
The signal that can have disposable handlers.
Signal  

handleSignal_ :: MonadDES m => Signal m a > (a > Event m ()) > Event m () Source #
Subscribe the handler to the specified signal forever.
To subscribe the disposable handlers, use function handleSignal
.
data SignalSource m a Source #
The signal source that can publish its signal.
newSignalSource :: MonadDES m => Simulation m (SignalSource m a) Source #
Create a new signal source.
newSignalSource0 :: (MonadDES m, MonadRef0 m) => m (SignalSource m a) Source #
Create a new signal source within more low level computation than Simulation
.
publishSignal :: SignalSource m a > Signal m a Source #
Publish the signal.
triggerSignal :: SignalSource m a > a > Event m () Source #
Trigger the signal actuating all its handlers at the current simulation time point.
Useful Combinators
mapSignal :: MonadDES m => (a > b) > Signal m a > Signal m b Source #
Map the signal according the specified function.
mapSignalM :: MonadDES m => (a > Event m b) > Signal m a > Signal m b Source #
Compose the signal.
apSignal :: MonadDES m => Event m (a > b) > Signal m a > Signal m b Source #
Transform the signal.
filterSignal :: MonadDES m => (a > Bool) > Signal m a > Signal m a Source #
Filter only those signal values that satisfy the specified predicate.
filterSignal_ :: MonadDES m => (a > Bool) > Signal m a > Signal m () Source #
Filter only those signal values that satisfy the specified predicate, but then ignoring the values.
filterSignalM :: MonadDES m => (a > Event m Bool) > Signal m a > Signal m a Source #
Filter only those signal values that satisfy the specified predicate.
filterSignalM_ :: MonadDES m => (a > Event m Bool) > Signal m a > Signal m () Source #
Filter only those signal values that satisfy the specified predicate, but then ignoring the values.
emptySignal :: MonadDES m => Signal m a Source #
An empty signal which is never triggered.
merge3Signals :: MonadDES m => Signal m a > Signal m a > Signal m a > Signal m a Source #
Merge three signals.
merge4Signals :: MonadDES m => Signal m a > Signal m a > Signal m a > Signal m a > Signal m a Source #
Merge four signals.
merge5Signals :: MonadDES m => Signal m a > Signal m a > Signal m a > Signal m a > Signal m a > Signal m a Source #
Merge five signals.
Signal Arriving
arrivalSignal :: MonadDES m => Signal m a > Signal m (Arrival a) Source #
Transform a signal so that the resulting signal returns a sequence of arrivals saving the information about the time points at which the original signal was received.
Delaying Signal
delaySignal :: MonadDES m => Double > Signal m a > Signal m a Source #
Delay the signal values for the specified time interval.
delaySignalM :: MonadDES m => Event m Double > Signal m a > Signal m a Source #
Delay the signal values for time intervals recalculated for each value.
Creating Signal in Time Points
newSignalInTimes :: MonadDES m => [Double] > Event m (Signal m Double) Source #
Return a signal that is triggered in the specified time points.
newSignalInIntegTimes :: MonadDES m => Event m (Signal m Double) Source #
Return a signal that is triggered in the integration time points.
It should be called with help of runEventInStartTime
.
newSignalInStartTime :: MonadDES m => Event m (Signal m Double) Source #
Return a signal that is triggered in the start time.
It should be called with help of runEventInStartTime
.
newSignalInStopTime :: MonadDES m => Event m (Signal m Double) Source #
Return a signal that is triggered in the final time.
Signalable Computations
data Signalable m a Source #
Describes a computation that also signals when changing its value.
Signalable  

MonadDES m => ResultComputing Signalable m Source #  
Functor m => Functor (Signalable m) Source #  
(MonadDES m, Monoid a) => Monoid (Signalable m a) Source #  
signalableChanged :: MonadDES m => Signalable m a > Signal m a Source #
Return a signal notifying that the value has changed.
emptySignalable :: (MonadDES m, Monoid a) => Signalable m a Source #
Return an identity.
appendSignalable :: (MonadDES m, Monoid a) => Signalable m a > Signalable m a > Signalable m a Source #
An associative operation.