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denoland-deno/tests/node_compat/test/parallel/test-nodeeventtarget.js

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// deno-fmt-ignore-file
// deno-lint-ignore-file
// Copyright Joyent and Node contributors. All rights reserved. MIT license.
// Taken from Node 20.11.1
// This file is automatically generated by `tests/node_compat/runner/setup.ts`. Do not modify this file manually.
// Flags: --expose-internals --no-warnings
'use strict';
const common = require('../common');
const { NodeEventTarget } = require('internal/event_target');
const {
deepStrictEqual,
ok,
strictEqual,
throws,
} = require('assert');
const { on } = require('events');
{
const eventTarget = new NodeEventTarget();
strictEqual(eventTarget.listenerCount('foo'), 0);
deepStrictEqual(eventTarget.eventNames(), []);
const ev1 = common.mustCall(function(event) {
strictEqual(event.type, 'foo');
strictEqual(this, eventTarget);
}, 2);
const ev2 = {
handleEvent: common.mustCall(function(event) {
strictEqual(event.type, 'foo');
strictEqual(this, ev2);
})
};
eventTarget.addEventListener('foo', ev1);
eventTarget.addEventListener('foo', ev2, { once: true });
strictEqual(eventTarget.listenerCount('foo'), 2);
ok(eventTarget.dispatchEvent(new Event('foo')));
strictEqual(eventTarget.listenerCount('foo'), 1);
eventTarget.dispatchEvent(new Event('foo'));
eventTarget.removeEventListener('foo', ev1);
strictEqual(eventTarget.listenerCount('foo'), 0);
eventTarget.dispatchEvent(new Event('foo'));
}
{
const eventTarget = new NodeEventTarget();
strictEqual(eventTarget.listenerCount('foo'), 0);
deepStrictEqual(eventTarget.eventNames(), []);
const ev1 = common.mustCall((event) => {
strictEqual(event.type, 'foo');
}, 2);
const ev2 = {
handleEvent: common.mustCall((event) => {
strictEqual(event.type, 'foo');
})
};
strictEqual(eventTarget.on('foo', ev1), eventTarget);
strictEqual(eventTarget.once('foo', ev2, { once: true }), eventTarget);
strictEqual(eventTarget.listenerCount('foo'), 2);
eventTarget.dispatchEvent(new Event('foo'));
strictEqual(eventTarget.listenerCount('foo'), 1);
eventTarget.dispatchEvent(new Event('foo'));
strictEqual(eventTarget.off('foo', ev1), eventTarget);
strictEqual(eventTarget.listenerCount('foo'), 0);
eventTarget.dispatchEvent(new Event('foo'));
}
{
const eventTarget = new NodeEventTarget();
strictEqual(eventTarget.listenerCount('foo'), 0);
deepStrictEqual(eventTarget.eventNames(), []);
const ev1 = common.mustCall((event) => {
strictEqual(event.type, 'foo');
}, 2);
const ev2 = {
handleEvent: common.mustCall((event) => {
strictEqual(event.type, 'foo');
})
};
eventTarget.addListener('foo', ev1);
eventTarget.once('foo', ev2, { once: true });
strictEqual(eventTarget.listenerCount('foo'), 2);
eventTarget.dispatchEvent(new Event('foo'));
strictEqual(eventTarget.listenerCount('foo'), 1);
eventTarget.dispatchEvent(new Event('foo'));
eventTarget.removeListener('foo', ev1);
strictEqual(eventTarget.listenerCount('foo'), 0);
eventTarget.dispatchEvent(new Event('foo'));
}
{
const eventTarget = new NodeEventTarget();
strictEqual(eventTarget.listenerCount('foo'), 0);
deepStrictEqual(eventTarget.eventNames(), []);
// Won't actually be called.
const ev1 = () => {};
// Won't actually be called.
const ev2 = { handleEvent() {} };
eventTarget.addListener('foo', ev1);
eventTarget.addEventListener('foo', ev1);
eventTarget.once('foo', ev2, { once: true });
eventTarget.once('foo', ev2, { once: false });
eventTarget.on('bar', ev1);
strictEqual(eventTarget.listenerCount('foo'), 2);
strictEqual(eventTarget.listenerCount('bar'), 1);
deepStrictEqual(eventTarget.eventNames(), ['foo', 'bar']);
strictEqual(eventTarget.removeAllListeners('foo'), eventTarget);
strictEqual(eventTarget.listenerCount('foo'), 0);
strictEqual(eventTarget.listenerCount('bar'), 1);
deepStrictEqual(eventTarget.eventNames(), ['bar']);
strictEqual(eventTarget.removeAllListeners(), eventTarget);
strictEqual(eventTarget.listenerCount('foo'), 0);
strictEqual(eventTarget.listenerCount('bar'), 0);
deepStrictEqual(eventTarget.eventNames(), []);
}
{
const target = new NodeEventTarget();
process.on('warning', common.mustCall((warning) => {
ok(warning instanceof Error);
strictEqual(warning.name, 'MaxListenersExceededWarning');
strictEqual(warning.target, target);
strictEqual(warning.count, 2);
strictEqual(warning.type, 'foo');
ok(warning.message.includes(
'2 foo listeners added to NodeEventTarget'));
}));
strictEqual(target.getMaxListeners(), NodeEventTarget.defaultMaxListeners);
target.setMaxListeners(1);
target.on('foo', () => {});
target.on('foo', () => {});
}
{
// Test NodeEventTarget emit
const emitter = new NodeEventTarget();
emitter.addEventListener('foo', common.mustCall((e) => {
strictEqual(e.type, 'foo');
strictEqual(e.detail, 'bar');
ok(e instanceof Event);
}), { once: true });
emitter.once('foo', common.mustCall((e, droppedAdditionalArgument) => {
strictEqual(e, 'bar');
strictEqual(droppedAdditionalArgument, undefined);
}));
emitter.emit('foo', 'bar', 'baz');
}
{
// Test NodeEventTarget emit unsupported usage
const emitter = new NodeEventTarget();
throws(() => {
emitter.emit();
}, /ERR_INVALID_ARG_TYPE/);
}
(async () => {
// test NodeEventTarget async-iterability
const emitter = new NodeEventTarget();
const interval = setInterval(() => {
emitter.dispatchEvent(new Event('foo'));
}, 0);
let count = 0;
for await (const [ item ] of on(emitter, 'foo')) {
count++;
strictEqual(item.type, 'foo');
if (count > 5) {
break;
}
}
clearInterval(interval);
})().then(common.mustCall());