Documentation

MSFs with an ExceptT transformer layer are in fact monads /in the exception type/.

• return corresponds to throwing an exception immediately.
• >>= is exception handling: The first value throws an exception, while the Kleisli arrow handles the exception and produces a new signal function, which can throw exceptions in a different type.
• m: The monad that the MSF may take side effects in.
• a: The input type
• b: The output type
• e: The type of exceptions that can be thrown

Immediately throw the given exception.

Execute an MSF in ExceptT until it raises an exception.

An alias for the MSFExcept constructor, used to enter the MSFExcept monad context.

Advances a single tick with the given Kleisli arrow, and then throws an exception.

Do not throw an exception.

An MSF without an ExceptT layer never throws an exception, and can thus have an arbitrary exception type.

Throw the exception e whenever the function evaluates to True.

Converts an MSF in MaybeT to an MSF in ExceptT. Whenever Nothing is thrown, throw () instead.

Escape an ExceptT layer by outputting the exception whenever it occurs. If an exception occurs, the current MSF continuation is tested again on the next input.

Converts a list to an MSFExcept, which outputs an element of the list at each step, throwing () when the list ends.

Reactimates an MSFExcept until it throws an exception.

If no exception can occur, the MSF can be executed without the ExceptT layer.

Reactimates an MSF until it returns True.

Immediately throw the incoming exception.

Throws the exception when the input is True. Variant of throwOnCond for Kleisli arrows.

Throw the exception when the input is True.

Variant of throwOn, where the exception may change every tick.

When the input is Just e, throw the exception e. (Does not output any actual data.)

Catch an exception in an MSF. As soon as an exception occurs, the current continuation is replaced by a new MSF, the exception handler, based on the exception value. For exception catching where the handler can throw further exceptions, see MSFExcept further below.

Similar to Yampa's delayed switching. Loses a b in case of an exception.

Embed an ExceptT value inside the MSF. Whenever the input value is an ordinary value, it is passed on. If it is an exception, it is raised.

More general lifting combinator that enables recovery. Note that, unlike a polymorphic lifting function forall a . m a -> m1 a, this auxiliary function needs to be a bit more structured, and produces a Maybe value. The previous MSF is used if a new one is not produced.

In case an exception occurs in the first argument, replace the exception by the second component of the tuple.

Immediately throw the current input as an exception.

Execute an MSF and, if it throws an exception, recover by switching to a second MSF.

Use a generic handler to handle exceptions in MSF processing actions.

Inside the MSFExcept monad, execute an action of the wrapped monad. This passes the last input value to the action, but doesn't advance a tick.

Variant of once without input.

Advances a single tick outputting the value, and then throws ().

Extract an MSF from a monadic action.

Runs a monadic action that produces an MSF on the first iteration/step, and uses that MSF as the main signal function for all inputs (including the first one).

Run first MSF until the second value in the output tuple is Just c (for some c), then start the second MSF.

Analog to Yampa's switch, with Maybe instead of Event.

Run first MSF until the second value in the output tuple is Just c (for some c), then start the second MSF.

Analog to Yampa's dswitch, with Maybe instead of Event.

The parameterizable exception monad.

Computations are either exceptions or normal values.

The return function returns a normal value, while >>= exits on the first exception. For a variant that continues after an error and collects all the errors, see Errors.

A monad transformer that adds exceptions to other monads.

ExceptT constructs a monad parameterized over two things:

• e - The exception type.
• m - The inner monad.

The return function yields a computation that produces the given value, while >>= sequences two subcomputations, exiting on the first exception.

Extractor for computations in the exception monad. (The inverse of except).

Map the unwrapped computation using the given function.

• runExcept (mapExcept f m) = f (runExcept m)

Transform any exceptions thrown by the computation using the given function (a specialization of withExceptT).

The inverse of ExceptT.

Map the unwrapped computation using the given function.

• runExceptT (mapExceptT f m) = f (runExceptT m)

Transform any exceptions thrown by the computation using the given function.

Signal an exception value e.

• runExceptT (throwE e) = return (Left e)

• throwE e >>= m = throwE e

Handle an exception.

• catchE (lift m) h = lift m

• catchE (throwE e) h = h e

Constructor for computations in the exception monad. (The inverse of runExcept).

The same as flip catchE, which is useful in situations where the code for the handler is shorter.

Similar to catchE, but returns an Either result which is (Right a) if no exception was thown, or (Left ex) if an exception ex was thrown.

finallyE a b executes computation a followed by computation b, even if a exits early by throwing an exception. In the latter case, the exception is re-thrown after b has been executed.