dcont v0.0.0

DCont

Delimited continuation Akh monad transformer that layers delimited control over a monad (dcont::trans::dcont).

The base type, dcont::dcont, provides delimited control on its own.

Structures

The delimited continuation transformer is a monad, functor, and applicative functor.

Running

DCont::runDCont(m, k)

Perform a delimited continuation computation m and complete with outer continuation k.

with
    import 'akh::base' {liftM2},
    import 'dcont::dcont' {runDCont of shift reset}
in {

var list = liftM2 @ \x y -> [x, y];

var c = reset \ p ->
    liftM2((+),
        shift @ p \k ->
            list(k (of 1), k (of 2)),
        shift @ p \k ->
            list(k (of 10), k (of 20)));

runDCont(c, console.log); // logs: [[11, 21], [12, 22]]
}

DContT::runDContT(m, k)

Same as DContT::runDCont but for transformed types

Delimited Control Interface

All DCont operations and methods are defined on both the type and its instances.

M.newPrompt

Create a new unique prompt that can be used to delimit a continuation.

M.pushPrompt(prompt, c)

Push prompt on to the control stack, delimiting the continuation, and evaluate computation c.

M.withSubCont(prompt, f)

Capture the continuation delimited by prompt and call f with it. f maps the delimited continuation to a computation. The delimited control structure passed to f should be considered opaque.

M.pushSubCont(subk, c)

Push an entire sub continuation sunk onto the stack and evaluate computation c.

M.reset(f)

Delimit a continuation, calling f with delimiting prompt. f maps the prompt to a computation that is performed inside the delimited context.

M.shift(p, f)

Capture the continuation delimited by p, reify the continuation, and pass it to f. f can invoke the reified continuation with a computation to evaluate the rest of the delimited continuation, or return a computation directly to break out.