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denoland-deno/std/node/events_test.ts
2020-11-17 19:49:57 -05:00

687 lines
18 KiB
TypeScript

// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
import {
assert,
assertEquals,
assertThrows,
fail,
} from "../testing/asserts.ts";
import EventEmitter, { on, once, WrappedFunction } from "./events.ts";
const shouldNeverBeEmitted = () => {
fail("Should never be called");
};
Deno.test({
name:
'When adding a new event, "eventListener" event is fired before adding the listener',
fn() {
let eventsFired: string[] = [];
const testEmitter = new EventEmitter();
testEmitter.on("newListener", (event: string) => {
if (event !== "newListener") {
eventsFired.push("newListener");
}
});
testEmitter.on("event", () => {
eventsFired.push("event");
});
assertEquals(eventsFired, ["newListener"]);
eventsFired = [];
testEmitter.emit("event");
assertEquals(eventsFired, ["event"]);
},
});
Deno.test({
name:
'When removing a listenert, "removeListener" event is fired after removal',
fn() {
const eventsFired: string[] = [];
const testEmitter = new EventEmitter();
testEmitter.on("removeListener", () => {
eventsFired.push("removeListener");
});
const eventFunction = function (): void {
eventsFired.push("event");
};
testEmitter.on("event", eventFunction);
assertEquals(eventsFired, []);
testEmitter.removeListener("event", eventFunction);
assertEquals(eventsFired, ["removeListener"]);
},
});
Deno.test({
name:
"Default max listeners is 10, but can be changed by direct assignment only",
fn() {
assertEquals(EventEmitter.defaultMaxListeners, 10);
new EventEmitter().setMaxListeners(20);
assertEquals(EventEmitter.defaultMaxListeners, 10);
EventEmitter.defaultMaxListeners = 20;
assertEquals(EventEmitter.defaultMaxListeners, 20);
EventEmitter.defaultMaxListeners = 10; //reset back to original value
assertThrows(() => {
new EventEmitter().setMaxListeners(-1);
});
const ee = new EventEmitter();
const noop = (): void => {};
const origWarn = console.warn;
for (let i = 10; i--;) {
ee.on("test", noop);
}
// there are only sync actions until it gets restored,
// so it's safe to overwrite this
console.warn = (): void => fail("Infinity listeners should be allowed");
ee.setMaxListeners(Infinity);
ee.on("test", noop);
// 0 means that unlimited listeners are allowed
ee.setMaxListeners(0);
ee.on("test", noop);
console.warn = origWarn;
},
});
Deno.test({
name: "addListener adds a listener, and listener count is correct",
fn() {
const testEmitter = new EventEmitter();
testEmitter.on("event", shouldNeverBeEmitted);
assertEquals(1, testEmitter.listenerCount("event"));
testEmitter.on("event", shouldNeverBeEmitted);
assertEquals(2, testEmitter.listenerCount("event"));
},
});
Deno.test({
name: "Emitted events are called synchronously in the order they were added",
fn() {
const testEmitter = new EventEmitter();
const eventsFired: string[] = [];
testEmitter.on("event", (oneArg: string) => {
eventsFired.push("event(" + oneArg + ")");
});
testEmitter.on("event", (oneArg: string, twoArg: string) => {
eventsFired.push("event(" + oneArg + ", " + twoArg + ")");
});
testEmitter.on("non-event", shouldNeverBeEmitted);
testEmitter.on(
"event",
(oneArg: string, twoArg: string, threeArg: string) => {
eventsFired.push(
"event(" + oneArg + ", " + twoArg + ", " + threeArg + ")",
);
},
);
testEmitter.emit("event", 1, 2, 3);
assertEquals(eventsFired, ["event(1)", "event(1, 2)", "event(1, 2, 3)"]);
},
});
Deno.test({
name: "Registered event names are returned as strings or Sybols",
fn() {
const testEmitter = new EventEmitter();
testEmitter.on("event", shouldNeverBeEmitted);
testEmitter.on("event", shouldNeverBeEmitted);
const sym = Symbol("symbol");
testEmitter.on(sym, shouldNeverBeEmitted);
assertEquals(testEmitter.eventNames(), ["event", sym]);
},
});
Deno.test({
name: "You can set and get max listeners",
fn() {
const testEmitter = new EventEmitter();
assertEquals(testEmitter.getMaxListeners(), 10);
testEmitter.setMaxListeners(20);
assertEquals(testEmitter.getMaxListeners(), 20);
},
});
Deno.test({
name: "You can retrieve registered functions for an event",
fn() {
const testEmitter = new EventEmitter();
testEmitter.on("someOtherEvent", shouldNeverBeEmitted);
testEmitter.on("event", shouldNeverBeEmitted);
const testFunction = (): void => {};
testEmitter.on("event", testFunction);
assertEquals(testEmitter.listeners("event"), [
shouldNeverBeEmitted,
testFunction,
]);
},
});
Deno.test({
name: "Off is alias for removeListener",
fn() {
const testEmitter = new EventEmitter();
testEmitter.on("event", shouldNeverBeEmitted);
assertEquals(testEmitter.listenerCount("event"), 1);
testEmitter.off("event", shouldNeverBeEmitted);
assertEquals(testEmitter.listenerCount("event"), 0);
},
});
Deno.test({
name: "Event registration can be chained",
fn() {
const testEmitter = new EventEmitter();
testEmitter
.on("event", shouldNeverBeEmitted)
.on("event", shouldNeverBeEmitted);
assertEquals(testEmitter.listenerCount("event"), 2);
},
});
Deno.test({
name: "Events can be registered to only fire once",
fn() {
let eventsFired: string[] = [];
const testEmitter = new EventEmitter();
//prove multiple emits on same event first (when registered with 'on')
testEmitter.on("multiple event", () => {
eventsFired.push("multiple event");
});
testEmitter.emit("multiple event");
testEmitter.emit("multiple event");
assertEquals(eventsFired, ["multiple event", "multiple event"]);
//now prove multiple events registered via 'once' only emit once
eventsFired = [];
testEmitter.once("single event", () => {
eventsFired.push("single event");
});
testEmitter.emit("single event");
testEmitter.emit("single event");
assertEquals(eventsFired, ["single event"]);
},
});
Deno.test({
name:
"You can inject a listener into the start of the stack, rather than at the end",
fn() {
const eventsFired: string[] = [];
const testEmitter = new EventEmitter();
testEmitter.on("event", () => {
eventsFired.push("first");
});
testEmitter.on("event", () => {
eventsFired.push("second");
});
testEmitter.prependListener("event", () => {
eventsFired.push("third");
});
testEmitter.emit("event");
assertEquals(eventsFired, ["third", "first", "second"]);
},
});
Deno.test({
name: 'You can prepend a "once" listener',
fn() {
const eventsFired: string[] = [];
const testEmitter = new EventEmitter();
testEmitter.on("event", () => {
eventsFired.push("first");
});
testEmitter.on("event", () => {
eventsFired.push("second");
});
testEmitter.prependOnceListener("event", () => {
eventsFired.push("third");
});
testEmitter.emit("event");
testEmitter.emit("event");
assertEquals(eventsFired, ["third", "first", "second", "first", "second"]);
},
});
Deno.test({
name: "Remove all listeners, which can also be chained",
fn() {
const testEmitter = new EventEmitter();
testEmitter.on("event", shouldNeverBeEmitted);
testEmitter.on("event", shouldNeverBeEmitted);
testEmitter.on("other event", shouldNeverBeEmitted);
testEmitter.on("other event", shouldNeverBeEmitted);
testEmitter.once("other event", shouldNeverBeEmitted);
assertEquals(testEmitter.listenerCount("event"), 2);
assertEquals(testEmitter.listenerCount("other event"), 3);
testEmitter.removeAllListeners("event").removeAllListeners("other event");
assertEquals(testEmitter.listenerCount("event"), 0);
assertEquals(testEmitter.listenerCount("other event"), 0);
},
});
Deno.test({
name: "Provide a non-existent event to removeAllListeners will do nothing",
fn() {
const testEmitter = new EventEmitter();
testEmitter.on("event", shouldNeverBeEmitted);
testEmitter.on("event", shouldNeverBeEmitted);
testEmitter.on("other event", shouldNeverBeEmitted);
testEmitter.on("other event", shouldNeverBeEmitted);
testEmitter.once("other event", shouldNeverBeEmitted);
assertEquals(testEmitter.listenerCount("event"), 2);
assertEquals(testEmitter.listenerCount("other event"), 3);
testEmitter.removeAllListeners("non-existent");
assertEquals(testEmitter.listenerCount("event"), 2);
assertEquals(testEmitter.listenerCount("other event"), 3);
},
});
Deno.test({
name: "Remove individual listeners, which can also be chained",
fn() {
const testEmitter = new EventEmitter();
testEmitter.on("event", shouldNeverBeEmitted);
testEmitter.on("event", shouldNeverBeEmitted);
testEmitter.once("other event", shouldNeverBeEmitted);
assertEquals(testEmitter.listenerCount("event"), 2);
assertEquals(testEmitter.listenerCount("other event"), 1);
testEmitter.removeListener("other event", shouldNeverBeEmitted);
assertEquals(testEmitter.listenerCount("event"), 2);
assertEquals(testEmitter.listenerCount("other event"), 0);
testEmitter
.removeListener("event", shouldNeverBeEmitted)
.removeListener("event", shouldNeverBeEmitted);
assertEquals(testEmitter.listenerCount("event"), 0);
assertEquals(testEmitter.listenerCount("other event"), 0);
},
});
Deno.test({
name: "It is OK to try to remove non-existent listener",
fn() {
const testEmitter = new EventEmitter();
const madeUpEvent = (): void => {
fail("Should never be called");
};
testEmitter.on("event", shouldNeverBeEmitted);
assertEquals(testEmitter.listenerCount("event"), 1);
testEmitter.removeListener("event", madeUpEvent);
testEmitter.removeListener("non-existent event", madeUpEvent);
assertEquals(testEmitter.listenerCount("event"), 1);
},
});
Deno.test({
name: "all listeners complete execution even if removed before execution",
fn() {
const testEmitter = new EventEmitter();
let eventsProcessed: string[] = [];
const listenerB = (): number => eventsProcessed.push("B");
const listenerA = (): void => {
eventsProcessed.push("A");
testEmitter.removeListener("event", listenerB);
};
testEmitter.on("event", listenerA);
testEmitter.on("event", listenerB);
testEmitter.emit("event");
assertEquals(eventsProcessed, ["A", "B"]);
eventsProcessed = [];
testEmitter.emit("event");
assertEquals(eventsProcessed, ["A"]);
},
});
Deno.test({
name: 'Raw listener will return event listener or wrapped "once" function',
fn() {
const testEmitter = new EventEmitter();
const eventsProcessed: string[] = [];
const listenerA = (): number => eventsProcessed.push("A");
const listenerB = (): number => eventsProcessed.push("B");
testEmitter.on("event", listenerA);
testEmitter.once("once-event", listenerB);
const rawListenersForEvent = testEmitter.rawListeners("event");
const rawListenersForOnceEvent = testEmitter.rawListeners("once-event");
assertEquals(rawListenersForEvent.length, 1);
assertEquals(rawListenersForOnceEvent.length, 1);
assertEquals(rawListenersForEvent[0], listenerA);
assertEquals(
(rawListenersForOnceEvent[0] as WrappedFunction).listener,
listenerB,
);
},
});
Deno.test({
name:
"Once wrapped raw listeners may be executed multiple times, until the wrapper is executed",
fn() {
const testEmitter = new EventEmitter();
let eventsProcessed: string[] = [];
const listenerA = (): number => eventsProcessed.push("A");
testEmitter.once("once-event", listenerA);
const rawListenersForOnceEvent = testEmitter.rawListeners("once-event");
const wrappedFn: WrappedFunction =
rawListenersForOnceEvent[0] as WrappedFunction;
wrappedFn.listener();
wrappedFn.listener();
wrappedFn.listener();
assertEquals(eventsProcessed, ["A", "A", "A"]);
eventsProcessed = [];
wrappedFn(); // executing the wrapped listener function will remove it from the event
assertEquals(eventsProcessed, ["A"]);
assertEquals(testEmitter.listeners("once-event").length, 0);
},
});
Deno.test({
name: "Can add once event listener to EventEmitter via standalone function",
async fn() {
const ee = new EventEmitter();
setTimeout(() => {
ee.emit("event", 42, "foo");
}, 0);
// deno-lint-ignore no-explicit-any
const valueArr: any[] = await once(ee, "event");
assertEquals(valueArr, [42, "foo"]);
},
});
Deno.test({
name: "Can add once event listener to EventTarget via standalone function",
async fn() {
const et: EventTarget = new EventTarget();
setTimeout(() => {
const event: Event = new Event("event", { composed: true });
et.dispatchEvent(event);
}, 0);
// deno-lint-ignore no-explicit-any
const eventObj: any[] = await once(et, "event");
assert(!eventObj[0].isTrusted);
},
});
Deno.test({
name: "Only valid integers are allowed for max listeners",
fn() {
const ee = new EventEmitter();
ee.setMaxListeners(0);
assertThrows(
() => {
ee.setMaxListeners(-1);
},
Error,
"must be >= 0",
);
assertThrows(
() => {
ee.setMaxListeners(3.45);
},
Error,
"must be 'an integer'",
);
},
});
Deno.test({
name: "ErrorMonitor can spy on error events without consuming them",
fn() {
const ee = new EventEmitter();
let events: string[] = [];
//unhandled error scenario should throw
assertThrows(
() => {
ee.emit("error");
},
Error,
"Unhandled error",
);
ee.on(EventEmitter.errorMonitor, () => {
events.push("errorMonitor event");
});
//error is still unhandled but also intercepted by error monitor
assertThrows(
() => {
ee.emit("error");
},
Error,
"Unhandled error",
);
assertEquals(events, ["errorMonitor event"]);
//A registered error handler won't throw, but still be monitored
events = [];
ee.on("error", () => {
events.push("error");
});
ee.emit("error");
assertEquals(events, ["errorMonitor event", "error"]);
},
});
Deno.test({
name: "asynchronous iteration of events are handled as expected",
async fn() {
const ee = new EventEmitter();
setTimeout(() => {
ee.emit("foo", "bar");
ee.emit("bar", 24);
ee.emit("foo", 42);
}, 0);
const iterable = on(ee, "foo");
const expected = [["bar"], [42]];
for await (const event of iterable) {
const current = expected.shift();
assertEquals(current, event);
if (expected.length === 0) {
break;
}
}
assertEquals(ee.listenerCount("foo"), 0);
assertEquals(ee.listenerCount("error"), 0);
},
});
Deno.test({
name: "asynchronous error handling of emitted events works as expected",
async fn() {
const ee = new EventEmitter();
const _err = new Error("kaboom");
setTimeout(() => {
ee.emit("error", _err);
}, 0);
const iterable = on(ee, "foo");
let thrown = false;
try {
// eslint-disable-next-line @typescript-eslint/no-unused-vars
for await (const event of iterable) {
fail("no events should be processed due to the error thrown");
}
} catch (err) {
thrown = true;
assertEquals(err, _err);
}
assertEquals(thrown, true);
},
});
Deno.test({
name: "error thrown during asynchronous processing of events is handled",
async fn() {
const ee = new EventEmitter();
const _err = new Error("kaboom");
setTimeout(() => {
ee.emit("foo", 42);
ee.emit("error", _err);
}, 0);
const iterable = on(ee, "foo");
const expected = [[42]];
let thrown = false;
try {
for await (const event of iterable) {
const current = expected.shift();
assertEquals(current, event);
}
} catch (err) {
thrown = true;
assertEquals(err, _err);
}
assertEquals(thrown, true);
assertEquals(ee.listenerCount("foo"), 0);
assertEquals(ee.listenerCount("error"), 0);
},
});
Deno.test({
name:
"error thrown in processing loop of asynchronous event prevents processing of additional events",
async fn() {
const ee = new EventEmitter();
const _err = new Error("kaboom");
setTimeout(() => {
ee.emit("foo", 42);
ee.emit("foo", 999);
}, 0);
try {
for await (const event of on(ee, "foo")) {
assertEquals(event, [42]);
throw _err;
}
} catch (err) {
assertEquals(err, _err);
}
assertEquals(ee.listenerCount("foo"), 0);
assertEquals(ee.listenerCount("error"), 0);
},
});
Deno.test({
name: "asynchronous iterator next() works as expected",
async fn() {
const ee = new EventEmitter();
const iterable = on(ee, "foo");
setTimeout(function () {
ee.emit("foo", "bar");
ee.emit("foo", 42);
iterable.return();
}, 0);
const results = await Promise.all([
iterable.next(),
iterable.next(),
iterable.next(),
]);
assertEquals(results, [
{
value: ["bar"],
done: false,
},
{
value: [42],
done: false,
},
{
value: undefined,
done: true,
},
]);
assertEquals(await iterable.next(), {
value: undefined,
done: true,
});
},
});
Deno.test({
name: "async iterable throw handles various scenarios",
async fn() {
const ee = new EventEmitter();
const iterable = on(ee, "foo");
setTimeout(() => {
ee.emit("foo", "bar");
ee.emit("foo", 42); // lost in the queue
iterable.throw(_err);
}, 0);
const _err = new Error("kaboom");
let thrown = false;
const expected = [["bar"], [42]];
try {
for await (const event of iterable) {
assertEquals(event, expected.shift());
}
} catch (err) {
thrown = true;
assertEquals(err, _err);
}
assertEquals(thrown, true);
assertEquals(expected.length, 0);
assertEquals(ee.listenerCount("foo"), 0);
assertEquals(ee.listenerCount("error"), 0);
},
});
// Event emitter's `on` previously referenced addListener internally, so overriding addListener
// would cause a deadlock
// This is a regression test
Deno.test("Elements that extend EventEmitter listener alias don't end up in a deadlock", () => {
class X extends EventEmitter {
addListener(eventName: string, listener: () => void) {
return super.on(eventName, listener);
}
}
const x = new X();
try {
x.on("x", () => {});
} catch (e) {
fail();
}
});