lhl 6ff0e96ad3 8-4-1 | 1 ano atrás | |
---|---|---|
.. | ||
lib | 1 ano atrás | |
LICENSE | 1 ano atrás | |
README.md | 1 ano atrás | |
package.json | 1 ano atrás |
The tapable package expose many Hook classes, which can be used to create hooks for plugins.
const {
SyncHook,
SyncBailHook,
SyncWaterfallHook,
SyncLoopHook,
AsyncParallelHook,
AsyncParallelBailHook,
AsyncSeriesHook,
AsyncSeriesBailHook,
AsyncSeriesWaterfallHook
} = require("tapable");
npm install --save tapable
All Hook constructors take one optional argument, which is a list of argument names as strings.
const hook = new SyncHook(["arg1", "arg2", "arg3"]);
The best practice is to expose all hooks of a class in a hooks
property:
class Car {
constructor() {
this.hooks = {
accelerate: new SyncHook(["newSpeed"]),
brake: new SyncHook(),
calculateRoutes: new AsyncParallelHook(["source", "target", "routesList"])
};
}
/* ... */
}
Other people can now use these hooks:
const myCar = new Car();
// Use the tap method to add a consument
myCar.hooks.brake.tap("WarningLampPlugin", () => warningLamp.on());
It's required to pass a name to identify the plugin/reason.
You may receive arguments:
myCar.hooks.accelerate.tap("LoggerPlugin", newSpeed => console.log(`Accelerating to ${newSpeed}`));
For sync hooks, tap
is the only valid method to add a plugin. Async hooks also support async plugins:
myCar.hooks.calculateRoutes.tapPromise("GoogleMapsPlugin", (source, target, routesList) => {
// return a promise
return google.maps.findRoute(source, target).then(route => {
routesList.add(route);
});
});
myCar.hooks.calculateRoutes.tapAsync("BingMapsPlugin", (source, target, routesList, callback) => {
bing.findRoute(source, target, (err, route) => {
if(err) return callback(err);
routesList.add(route);
// call the callback
callback();
});
});
// You can still use sync plugins
myCar.hooks.calculateRoutes.tap("CachedRoutesPlugin", (source, target, routesList) => {
const cachedRoute = cache.get(source, target);
if(cachedRoute)
routesList.add(cachedRoute);
})
The class declaring these hooks need to call them:
class Car {
/* ... */
setSpeed(newSpeed) {
this.hooks.accelerate.call(newSpeed);
}
useNavigationSystemPromise(source, target) {
const routesList = new List();
return this.hooks.calculateRoutes.promise(source, target, routesList).then(() => {
return routesList.getRoutes();
});
}
useNavigationSystemAsync(source, target, callback) {
const routesList = new List();
this.hooks.calculateRoutes.callAsync(source, target, routesList, err => {
if(err) return callback(err);
callback(null, routesList.getRoutes());
});
}
}
The Hook will compile a method with the most efficient way of running your plugins. It generates code depending on:
This ensures fastest possible execution.
Each hook can be tapped with one or several functions. How they are executed depends on the hook type:
Basic hook (without “Waterfall”, “Bail” or “Loop” in its name). This hook simply calls every function it tapped in a row.
Waterfall. A waterfall hook also calls each tapped function in a row. Unlike the basic hook, it passes a return value from each function to the next function.
Bail. A bail hook allows exiting early. When any of the tapped function returns anything, the bail hook will stop executing the remaining ones.
Loop. TODO
Additionally, hooks can be synchronous or asynchronous. To reflect this, there’re “Sync”, “AsyncSeries”, and “AsyncParallel” hook classes:
Sync. A sync hook can only be tapped with synchronous functions (using myHook.tap()
).
AsyncSeries. An async-series hook can be tapped with synchronous, callback-based and promise-based functions (using myHook.tap()
, myHook.tapAsync()
and myHook.tapPromise()
). They call each async method in a row.
AsyncParallel. An async-parallel hook can also be tapped with synchronous, callback-based and promise-based functions (using myHook.tap()
, myHook.tapAsync()
and myHook.tapPromise()
). However, they run each async method in parallel.
The hook type is reflected in its class name. E.g., AsyncSeriesWaterfallHook
allows asynchronous functions and runs them in series, passing each function’s return value into the next function.
All Hooks offer an additional interception API:
myCar.hooks.calculateRoutes.intercept({
call: (source, target, routesList) => {
console.log("Starting to calculate routes");
},
register: (tapInfo) => {
// tapInfo = { type: "promise", name: "GoogleMapsPlugin", fn: ... }
console.log(`${tapInfo.name} is doing its job`);
return tapInfo; // may return a new tapInfo object
}
})
call: (...args) => void
Adding call
to your interceptor will trigger when hooks are triggered. You have access to the hooks arguments.
tap: (tap: Tap) => void
Adding tap
to your interceptor will trigger when a plugin taps into a hook. Provided is the Tap
object. Tap
object can't be changed.
loop: (...args) => void
Adding loop
to your interceptor will trigger for each loop of a looping hook.
register: (tap: Tap) => Tap | undefined
Adding register
to your interceptor will trigger for each added Tap
and allows to modify it.
Plugins and interceptors can opt-in to access an optional context
object, which can be used to pass arbitrary values to subsequent plugins and interceptors.
myCar.hooks.accelerate.intercept({
context: true,
tap: (context, tapInfo) => {
// tapInfo = { type: "sync", name: "NoisePlugin", fn: ... }
console.log(`${tapInfo.name} is doing it's job`);
// `context` starts as an empty object if at least one plugin uses `context: true`.
// If no plugins use `context: true`, then `context` is undefined.
if (context) {
// Arbitrary properties can be added to `context`, which plugins can then access.
context.hasMuffler = true;
}
}
});
myCar.hooks.accelerate.tap({
name: "NoisePlugin",
context: true
}, (context, newSpeed) => {
if (context && context.hasMuffler) {
console.log("Silence...");
} else {
console.log("Vroom!");
}
});
A HookMap is a helper class for a Map with Hooks
const keyedHook = new HookMap(key => new SyncHook(["arg"]))
keyedHook.tap("some-key", "MyPlugin", (arg) => { /* ... */ });
keyedHook.tapAsync("some-key", "MyPlugin", (arg, callback) => { /* ... */ });
keyedHook.tapPromise("some-key", "MyPlugin", (arg) => { /* ... */ });
const hook = keyedHook.get("some-key");
if(hook !== undefined) {
hook.callAsync("arg", err => { /* ... */ });
}
Public:
interface Hook {
tap: (name: string | Tap, fn: (context?, ...args) => Result) => void,
tapAsync: (name: string | Tap, fn: (context?, ...args, callback: (err, result: Result) => void) => void) => void,
tapPromise: (name: string | Tap, fn: (context?, ...args) => Promise<Result>) => void,
intercept: (interceptor: HookInterceptor) => void
}
interface HookInterceptor {
call: (context?, ...args) => void,
loop: (context?, ...args) => void,
tap: (context?, tap: Tap) => void,
register: (tap: Tap) => Tap,
context: boolean
}
interface HookMap {
for: (key: any) => Hook,
tap: (key: any, name: string | Tap, fn: (context?, ...args) => Result) => void,
tapAsync: (key: any, name: string | Tap, fn: (context?, ...args, callback: (err, result: Result) => void) => void) => void,
tapPromise: (key: any, name: string | Tap, fn: (context?, ...args) => Promise<Result>) => void,
intercept: (interceptor: HookMapInterceptor) => void
}
interface HookMapInterceptor {
factory: (key: any, hook: Hook) => Hook
}
interface Tap {
name: string,
type: string
fn: Function,
stage: number,
context: boolean
}
Protected (only for the class containing the hook):
interface Hook {
isUsed: () => boolean,
call: (...args) => Result,
promise: (...args) => Promise<Result>,
callAsync: (...args, callback: (err, result: Result) => void) => void,
}
interface HookMap {
get: (key: any) => Hook | undefined,
for: (key: any) => Hook
}
A helper Hook-like class to redirect taps to multiple other hooks:
const { MultiHook } = require("tapable");
this.hooks.allHooks = new MultiHook([this.hooks.hookA, this.hooks.hookB]);