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joplin/packages/lib/eventManager.ts

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const fastDeepEqual = require('fast-deep-equal');
const events = require('events');
export class EventManager {
private emitter_: any;
private appStatePrevious_: any;
private appStateWatchedProps_: string[];
private appStateListeners_: any;
constructor() {
this.reset();
}
reset() {
this.emitter_ = new events.EventEmitter();
this.appStatePrevious_ = {};
this.appStateWatchedProps_ = [];
this.appStateListeners_ = {};
}
on(eventName: string, callback: Function) {
return this.emitter_.on(eventName, callback);
}
emit(eventName: string, object: any = null) {
return this.emitter_.emit(eventName, object);
}
removeListener(eventName: string, callback: Function) {
return this.emitter_.removeListener(eventName, callback);
}
off(eventName: string, callback: Function) {
return this.removeListener(eventName, callback);
}
filterOn(filterName: string, callback: Function) {
return this.emitter_.on(`filter:${filterName}`, callback);
}
filterOff(filterName: string, callback: Function) {
return this.removeListener(`filter:${filterName}`, callback);
}
public async filterEmit(filterName: string, object: any) {
let output = object;
const listeners = this.emitter_.listeners(`filter:${filterName}`);
for (const listener of listeners) {
// When we pass the object to the plugin, it is always going to be
// modified since it is serialized/unserialized. So we need to use a
// deep equality check to see if it's been changed. Normally the
// filter objects should be relatively small so there shouldn't be
// much of a performance hit.
const newOutput = await listener(output);
// Plugin didn't return anything - so we leave the object as it is.
if (newOutput === undefined) continue;
if (!fastDeepEqual(newOutput, output)) {
output = newOutput;
}
}
return output;
}
appStateOn(propName: string, callback: Function) {
if (!this.appStateListeners_[propName]) {
this.appStateListeners_[propName] = [];
this.appStateWatchedProps_.push(propName);
}
this.appStateListeners_[propName].push(callback);
}
appStateOff(propName: string, callback: Function) {
if (!this.appStateListeners_[propName]) {
throw new Error('EventManager: Trying to unregister a state prop watch for a non-watched prop (1)');
}
const idx = this.appStateListeners_[propName].indexOf(callback);
if (idx < 0) throw new Error('EventManager: Trying to unregister a state prop watch for a non-watched prop (2)');
this.appStateListeners_[propName].splice(idx, 1);
}
stateValue_(state: any, propName: string) {
const parts = propName.split('.');
let s = state;
for (const p of parts) {
if (!(p in s)) throw new Error(`Invalid state property path: ${propName}`);
s = s[p];
}
return s;
}
// This function works by keeping a copy of the watched props and, whenever this function
// is called, comparing the previous and new values and emitting events if they have changed.
// The appStateEmit function should be called from a middleware.
appStateEmit(state: any) {
if (!this.appStateWatchedProps_.length) return;
for (const propName of this.appStateWatchedProps_) {
let emit = false;
const stateValue = this.stateValue_(state, propName);
if (!(propName in this.appStatePrevious_) || this.appStatePrevious_[propName] !== stateValue) {
this.appStatePrevious_[propName] = stateValue;
emit = true;
}
if (emit) {
const listeners = this.appStateListeners_[propName];
if (!listeners || !listeners.length) continue;
const eventValue = Object.freeze(stateValue);
for (const listener of listeners) {
listener({ value: eventValue });
}
}
}
}
}
const eventManager = new EventManager();
export default eventManager;