
Data.EventList.Relative.TimeBody  Portability  Haskell 98  Stability  stable  Maintainer  haskell@henningthielemann.de 



Description 
Event lists starting with a time difference and ending with a body.
The time is stored in differences between the events.
Thus there is no increase of time information for long,
or even infinite, streams of events.
Further on, the time difference is stored
in the latter of two neighbouring events.
This is necessary for realtime computing
where it is not known whether and when the next event happens.


Synopsis 

data T time body   empty :: T time body   singleton :: time > body > T time body   null :: T time body > Bool   viewL :: T time body > Maybe ((time, body), T time body)   viewR :: T time body > Maybe (T time body, (time, body))   switchL :: c > ((time, body) > T time body > c) > T time body > c   switchR :: c > (T time body > (time, body) > c) > T time body > c   cons :: time > body > T time body > T time body   snoc :: T time body > time > body > T time body   fromPairList :: [(a, b)] > T a b   toPairList :: T a b > [(a, b)]   getTimes :: T time body > [time]   getBodies :: T time body > [body]   duration :: Num time => T time body > time   mapBody :: (body0 > body1) > T time body0 > T time body1   mapTime :: (time0 > time1) > T time0 body > T time1 body   concatMapMonoid :: Monoid m => (time > m) > (body > m) > T time body > m   mapM :: Monad m => (time0 > m time1) > (body0 > m body1) > T time0 body0 > m (T time1 body1)   mapM_ :: Monad m => (time > m ()) > (body > m ()) > T time body > m ()   mapBodyM :: Monad m => (body0 > m body1) > T time body0 > m (T time body1)   mapTimeM :: Monad m => (time0 > m time1) > T time0 body > m (T time1 body)   foldr :: (time > a > b) > (body > b > a) > b > T time body > b   foldrPair :: (time > body > a > a) > a > T time body > a   merge :: (C time, Ord body) => T time body > T time body > T time body   mergeBy :: C time => (body > body > Bool) > T time body > T time body > T time body   insert :: (C time, Ord body) => time > body > T time body > T time body   insertBy :: (C time, Ord body) => (body > body > Bool) > time > body > T time body > T time body   moveForward :: C time => T time (time, body) > T time body   decreaseStart :: C time => time > T time body > T time body   delay :: C time => time > T time body > T time body   filter :: Num time => (body > Bool) > T time body > T time body   partition :: Num time => (body > Bool) > T time body > (T time body, T time body)   slice :: (Eq a, Num time) => (body > a) > T time body > [(a, T time body)]   span :: (body > Bool) > T time body > (T time body, T time body)   mapMaybe :: Num time => (body0 > Maybe body1) > T time body0 > T time body1   catMaybes :: Num time => T time (Maybe body) > T time body   normalize :: (C time, Ord body) => T time body > T time body   isNormalized :: (C time, Ord body) => T time body > Bool   collectCoincident :: C time => T time body > T time [body]   flatten :: C time => T time [body] > T time body   mapCoincident :: C time => ([a] > [b]) > T time a > T time b   append :: T time body > T time body > T time body   concat :: [T time body] > T time body   cycle :: T time body > T time body   discretize :: (C time, RealFrac time, C i, Integral i) => T time body > T i body   resample :: (C time, RealFrac time, C i, Integral i) => time > T time body > T i body   toAbsoluteEventList :: Num time => time > T time body > T time body   fromAbsoluteEventList :: Num time => T time body > T time body 


Documentation 


Instances  




singleton :: time > body > T time body  Source 








switchL :: c > ((time, body) > T time body > c) > T time body > c  Source 


switchR :: c > (T time body > (time, body) > c) > T time body > c  Source 


cons :: time > body > T time body > T time body  Source 


snoc :: T time body > time > body > T time body  Source 


fromPairList :: [(a, b)] > T a b  Source 


toPairList :: T a b > [(a, b)]  Source 


getTimes :: T time body > [time]  Source 


getBodies :: T time body > [body]  Source 




mapBody :: (body0 > body1) > T time body0 > T time body1  Source 


mapTime :: (time0 > time1) > T time0 body > T time1 body  Source 


concatMapMonoid :: Monoid m => (time > m) > (body > m) > T time body > m  Source 


mapM :: Monad m => (time0 > m time1) > (body0 > m body1) > T time0 body0 > m (T time1 body1)  Source 




mapBodyM :: Monad m => (body0 > m body1) > T time body0 > m (T time body1)  Source 


mapTimeM :: Monad m => (time0 > m time1) > T time0 body > m (T time1 body)  Source 


foldr :: (time > a > b) > (body > b > a) > b > T time body > b  Source 


foldrPair :: (time > body > a > a) > a > T time body > a  Source 


merge :: (C time, Ord body) => T time body > T time body > T time body  Source 

This function merges the events of two lists into a new event list.
Note that merge compares entire events rather than just start times.
This is to ensure that it is commutative,
one of the properties we test for.


mergeBy :: C time => (body > body > Bool) > T time body > T time body > T time body  Source 

mergeBy is like merge but does not simply use the methods of the Ord class
but allows a custom comparison function.


insert :: (C time, Ord body) => time > body > T time body > T time body  Source 

insert inserts an event into an event list at the given time.


insertBy :: (C time, Ord body) => (body > body > Bool) > time > body > T time body > T time body  Source 


moveForward :: C time => T time (time, body) > T time body  Source 

Move events towards the front of the event list.
You must make sure, that no event is moved before time zero.
This works only for finite lists.


decreaseStart :: C time => time > T time body > T time body  Source 


delay :: C time => time > T time body > T time body  Source 



Keep only events that match a predicate while preserving absolute times.


partition :: Num time => (body > Bool) > T time body > (T time body, T time body)  Source 


slice :: (Eq a, Num time) => (body > a) > T time body > [(a, T time body)]  Source 

Using a classification function
we splice the event list into lists, each containing the same class.
Absolute time stamps are preserved.


span :: (body > Bool) > T time body > (T time body, T time body)  Source 


mapMaybe :: Num time => (body0 > Maybe body1) > T time body0 > T time body1  Source 



Adds times in a leftassociative fashion.
Use this if the time is a strict data type.


normalize :: (C time, Ord body) => T time body > T time body  Source 

sort sorts a list of coinciding events,
that is all events but the first one have time difference 0.
normalize sorts all coinciding events in a list
thus yielding a canonical representation of a time ordered list.




collectCoincident :: C time => T time body > T time [body]  Source 

Group events that have equal start times
(that is zero time differences).


flatten :: C time => T time [body] > T time body  Source 

Reverse to collectCoincident:
Turn each body into a separate event.
xs == flatten (collectCoincident xs)


mapCoincident :: C time => ([a] > [b]) > T time a > T time b  Source 

Apply a function to the lists of coincident events.


append :: T time body > T time body > T time body  Source 


concat :: [T time body] > T time body  Source 


cycle :: T time body > T time body  Source 



We provide discretize and resample for discretizing the time information.
When converting the precise relative event times
to the integer relative event times
we have to prevent accumulation of rounding errors.
We avoid this problem with a stateful conversion
which remembers each rounding error we make.
This rounding error is used to correct the next rounding.
Given the relative time and duration of an event
the function floorDiff creates a Control.Monad.State.State
which computes the rounded relative time.
It is corrected by previous rounding errors.
The resulting event list may have differing time differences
which were equal before discretization,
but the overall timing is uniformly close to the original.
We use floorDiff rather than roundDiff
in order to compute exclusively with nonnegative numbers.




toAbsoluteEventList :: Num time => time > T time body > T time body  Source 

We tried hard to compute everything with respect to relative times.
However sometimes we need absolute time values.


fromAbsoluteEventList :: Num time => T time body > T time body  Source 


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