Control.Arrow.Operations.ArrowCircuit class is for:
An arrow type that can be used to interpret synchronous circuits.
I want to know what synchronous means here. I looked it up on Wikipedia, where they are speaking of digital electronics. My electronics is quite rusty, so here is the question: what is wrong (if anything is) with such an instance for the so-called asynchronous stream processors:
data StreamProcessor a b = Get (a -> StreamProcessor a b) | Put b (StreamProcessor a b) | Halt instance Category StreamProcessor where id = Get (\ x -> Put x id) Put c bc . ab = Put c (bc . ab) Get bbc . Put b ab = (bbc b) . ab Get bbc . Get aab = Get $ \ a -> (Get bbc) . (aab a) Get bbc . Halt = Halt Halt . ab = Halt instance Arrow StreamProcessor where ... getThroughBlocks :: [a] -> StreamProcessor a b -> StreamProcessor a b getThroughBlocks ~(a : input) (Get f) = getThroughBlocks input (f a) getThroughBlocks _input putOrHalt = putOrHalt getThroughSameArgBlocks :: a -> StreamProcessor a b -> StreamProcessor a b getThroughSameArgBlocks = getThroughBlocks . repeat instance ArrowLoop StreamProcessor where loop Halt = Halt loop (Put (c, d) bdcd') = Put c (loop bdcd') loop (Get f) = Get $ \ b -> let Put (c, d) bdcd' = getThroughSameArgBlocks (b, d) (f (b, d)) in Put c (loop bdcd') instance ArrowCircuit StreamProcessor where delay b = Put b id
I reckon this solution to work for us as: we want
someArrowCircuit >>> delay b to be
someArrowCircuit delayed by one tick with
b coming before anything from it. It is easy to see we get what we want:
someArrowCircuit >>> delay b = someArrowCircuit >>> Put b id = Put b id . someArrowCircuit = Put b (id . someArrowCircuit) = Put b someArrowCircuit
Are there any laws for such a class? If I made no mistake writing
delay down, how does synchronous live alongside asynchronous?