This project is part of the @thi.ng/umbrella monorepo.
Interceptor based event, side effect & immutable state handling.
yarn add @thi.ng/interceptors
import * as interceptors from "@thi.ng/interceptors";
Interceptors (Event and Effect primitives)
The idea of interceptors is quite similar to functional composition and AOP (aspect oriented programming). You want to reuse some functionality across components within your app. For example, if you have multiple actions which should be undoable, you can compose your main event handlers with the snapShot()
interceptor, which requires a @thi.ng/atom/History-like instance and records a snapshot of the current app state, but else is completely invisible.
[UNDOABLE_EVENT]: [snapshot(), valueSetter("foo")]
The idea of event handlers is being responsible to assign parameters to side effects, rather than executing effects themselves, is again mainly to do with the DRY-principle, instrumentation potential and performance. Most composed event handler chains are setup so that your "actual" main handler is last in line in the pre processing phase. If e.g. your event handlers would directly update the state atom, then any attached watches (derived views, cursors, other subscriptions) would be re-run each time. By assigning the updated state to, e.g., an FX_STATE
event, we can avoid these interim updates and only apply the new state once all events in the current frame have been processed. Furthermore, a post interceptor might cancel the event due to validation errors etc.
To briefly summarize the differences between event handlers & effects:
Event handlers are triggered by events, but each event handler is technically a chain of interceptors (even though many are just a single item). Even if you just specify a single function, it's internally translated into an array of interceptor objects like:
valueSetter("route") -> [{ pre: (...) => {[FX_STATE]: ...}, post: undefined }]
When processing an event, these interceptors are then executed first in ascending order for any pre functions and then backwards again for any post functions (only if there are any in the chain). So if you had defined an handler with this chain: [{pre: f1, post: f2}, {pre: f3}, {pre: f4, post: f5}]
, then the functions would be called in this order: f1, f3, f4, f5, f2. The post phase is largely intended for state/effect validation & logging post-update. I.e., interceptors commonly need pre
only.
Like with trace()
some interceptors DO have side effects, but they're really the exception to the rule. For example, snapshot()
is idempotent since it only records a new snapshot if it's different from the last and trace()
, but is typically used during development only - its side effect is outside the scope of your app (i.e. the console).
In most apps there're far more event types/handlers than possible actions any component can take. So assigning them to registered side effects enables better code reuse. Another use-case is debugging. With a break point set at the beginning of processEffects()
(in event-bus.ts
) you can see exactly which side effects have occured at each frame. This can be very helpful for debugging and avoid having to "keep everything in your head" or - as Rich Hickey would say - make your app "Easier to reason about".
More comprehensive description forthcoming. Please check the detailed commented source code and examples for now:
Introductory:
- /examples/interceptor-basics | live demo
- /examples/interceptor-basics2 | live demo
- /examples/async-effect | live demo
Advanced:
-
create-hdom-app Yarn project generator. Uses: @thi.ng/atom + hdom + interceptors + router
- Karsten Schmidt
© 2018 Karsten Schmidt // Apache Software License 2.0