(Clarification: In reactive-banana, it is not possible to convert a Behavior
back to an Event
. The stepper
function is a one-way ticket. There is a changes
function, but its type indicates that it is "impure" and it comes with a warning that it does not preserve the semantics.)
I believe that having two separates concepts makes the API more elegant. In other words, it boils down to a question of API usability. I think that the two concepts behave sufficiently differently that things flow better if you have two separate types.
For example, the direct product for each type is different. A pair of Behavior is equivalent to a Behavior of pairs
(Behavior a, Behavior b) ~ Behavior (a,b)
whereas a pair of Events is equivalent to an Event of a direct sum:
(Event a, Event b) ~ Event (EitherOrBoth a b)
If you merge both types into one, then neither of these equivalence will hold anymore.
However, one of the main reasons for the separation of Event and Behavior is that the latter does not have a notion of changes or "updates". This may seem like an omission at first, but it is extremely useful in practice, because it leads to simpler code. For instance, consider a monadic function newInput
that creates an input GUI widget that displays the text indicated in the argument Behavior,
input <- newInput (bText :: Behavior String)
The key point now is that the text displayed does not depend on how often the Behavior bText
may have been updated (to the same or a different value), only on the actual value itself. This is a lot easier to reason about than the other case, where you would have to think about what happens when two successive event occurrences have the same value. Do you redraw the text while the user edits it?
(Of course, in order to actually draw the text, the library has to interface with the GUI framework and does keep track of changes in the Behavior. This is what the changes
combinator is for. However, this can be seen as an optimization and is not available from "within FRP".)
The other main reason for the separation is recursion. Most Events that recursively depend on themselves are ill-defined. However, recursion is always allowed if you have mutual recursion between an Event and a Behavior
e = ((+) <$> b) <@> einput
b = stepper 0 e
There is no need to introduce delays by hand, it just works out of the box.