Pardon me if I am missing the point on FSAs, but I believe
accumB and friends can capture what you are aiming at, nicely and declaratively. In essence, individual states are values, and transitions are functions. A very simple example might begin with:
data ToggleState = Off | On deriving (Show)
toggle :: ToggleState -> ToggleState
toggle Off = On
toggle On = Off
emergencyShutdown :: ToggleState -> ToggleState
emergencyShutdown _ = Off
(No good ideas for capturing the "open enum"-like schtick of
QState() occur to me right now, though I guess it is not really a big deal, given the preference for strong typing of the typical Haskeller.)
Then, we set up the FRP network, capturing state as behaviors (i.e. time-varying values) and transitions as events:
-- Assuming eFlipSwitch and ePushShutdownButton are
-- bindings to your favourite UI library.
eToggle :: Event t (ToggleState -> ToggleState)
eToggle = toggle <$ eFlipSwitch
eShutdown :: Event t (ToggleState -> ToggleState)
eShutdown = emergencyShutdown <$ ePushShutdownButton
-- By defining the behavior, we state once and for all the
-- temporal evolution of the state in terms of the transitions.
bState :: Behavior t ToggleState
bState = accumB Off $ eToggle `union` eShutdown
There are many other possibilities.
IO callbacks can be triggered by an event through
reactimate. Guards, as described in the QStateMachine docs, can be done with
filterE and related combinators. Animating UI elements can be readily done by the binding modules (look for
sink in reactive-banana-wx or, for that matter, threepenny-gui). And so forth.