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https://github.com/denoland/deno.git
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375 lines
11 KiB
JavaScript
375 lines
11 KiB
JavaScript
// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
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"use strict";
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((window) => {
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const core = window.Deno.core;
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const {
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ArrayPrototypePush,
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ArrayPrototypeShift,
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FunctionPrototypeCall,
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Map,
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MapPrototypeDelete,
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MapPrototypeGet,
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MapPrototypeHas,
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MapPrototypeSet,
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// deno-lint-ignore camelcase
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NumberPOSITIVE_INFINITY,
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PromisePrototypeThen,
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ObjectPrototypeIsPrototypeOf,
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SafeArrayIterator,
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SymbolFor,
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TypeError,
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} = window.__bootstrap.primordials;
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const { webidl } = window.__bootstrap;
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const { assert } = window.__bootstrap.infra;
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function opNow() {
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return core.opSync("op_now");
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}
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function sleepSync(millis = 0) {
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return core.opSync("op_sleep_sync", millis);
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}
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// ---------------------------------------------------------------------------
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/**
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* The task queue corresponding to the timer task source.
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*
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* @type { {action: () => void, nestingLevel: number}[] }
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*/
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const timerTasks = [];
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/**
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* The current task's timer nesting level, or zero if we're not currently
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* running a timer task (since the minimum nesting level is 1).
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*
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* @type {number}
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*/
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let timerNestingLevel = 0;
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function handleTimerMacrotask() {
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if (timerTasks.length === 0) {
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return true;
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}
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const task = ArrayPrototypeShift(timerTasks);
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timerNestingLevel = task.nestingLevel;
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try {
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task.action();
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} finally {
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timerNestingLevel = 0;
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}
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return timerTasks.length === 0;
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}
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// ---------------------------------------------------------------------------
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/**
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* The keys in this map correspond to the key ID's in the spec's map of active
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* timers. The values are the timeout's cancel rid.
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*
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* @type {Map<number, { cancelRid: number, isRef: boolean, promiseId: number }>}
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*/
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const activeTimers = new Map();
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let nextId = 1;
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/**
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* @param {Function | string} callback
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* @param {number} timeout
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* @param {Array<any>} args
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* @param {boolean} repeat
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* @param {number | undefined} prevId
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* @returns {number} The timer ID
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*/
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function initializeTimer(
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callback,
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timeout,
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args,
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repeat,
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prevId,
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) {
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// 2. If previousId was given, let id be previousId; otherwise, let
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// previousId be an implementation-defined integer than is greater than zero
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// and does not already exist in global's map of active timers.
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let id;
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let timerInfo;
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if (prevId !== undefined) {
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// `prevId` is only passed for follow-up calls on intervals
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assert(repeat);
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id = prevId;
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timerInfo = MapPrototypeGet(activeTimers, id);
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} else {
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// TODO(@andreubotella): Deal with overflow.
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// https://github.com/whatwg/html/issues/7358
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id = nextId++;
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const cancelRid = core.opSync("op_timer_handle");
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timerInfo = { cancelRid, isRef: true, promiseId: -1 };
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// Step 4 in "run steps after a timeout".
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MapPrototypeSet(activeTimers, id, timerInfo);
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}
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// 3. If the surrounding agent's event loop's currently running task is a
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// task that was created by this algorithm, then let nesting level be the
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// task's timer nesting level. Otherwise, let nesting level be zero.
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// 4. If timeout is less than 0, then set timeout to 0.
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// 5. If nesting level is greater than 5, and timeout is less than 4, then
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// set timeout to 4.
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//
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// The nesting level of 5 and minimum of 4 ms are spec-mandated magic
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// constants.
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if (timeout < 0) timeout = 0;
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if (timerNestingLevel > 5 && timeout < 4) timeout = 4;
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// 9. Let task be a task that runs the following steps:
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const task = {
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action: () => {
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// 1. If id does not exist in global's map of active timers, then abort
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// these steps.
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//
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// This is relevant if the timer has been canceled after the sleep op
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// resolves but before this task runs.
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if (!MapPrototypeHas(activeTimers, id)) {
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return;
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}
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// 2.
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// 3.
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// TODO(@andreubotella): Error handling.
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if (typeof callback === "function") {
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FunctionPrototypeCall(
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callback,
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globalThis,
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...new SafeArrayIterator(args),
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);
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} else {
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// TODO(@andreubotella): eval doesn't seem to have a primordial, but
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// it can be redefined in the global scope.
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(0, eval)(callback);
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}
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if (repeat) {
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if (MapPrototypeHas(activeTimers, id)) {
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// 4. If id does not exist in global's map of active timers, then
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// abort these steps.
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// NOTE: If might have been removed via the author code in handler
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// calling clearTimeout() or clearInterval().
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// 5. If repeat is true, then perform the timer initialization steps
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// again, given global, handler, timeout, arguments, true, and id.
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initializeTimer(callback, timeout, args, true, id);
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}
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} else {
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// 6. Otherwise, remove global's map of active timers[id].
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core.tryClose(timerInfo.cancelRid);
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MapPrototypeDelete(activeTimers, id);
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}
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},
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// 10. Increment nesting level by one.
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// 11. Set task's timer nesting level to nesting level.
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nestingLevel: timerNestingLevel + 1,
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};
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// 12. Let completionStep be an algorithm step which queues a global task on
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// the timer task source given global to run task.
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// 13. Run steps after a timeout given global, "setTimeout/setInterval",
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// timeout, completionStep, and id.
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runAfterTimeout(
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() => ArrayPrototypePush(timerTasks, task),
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timeout,
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timerInfo,
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);
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return id;
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}
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// ---------------------------------------------------------------------------
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/**
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* @typedef ScheduledTimer
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* @property {number} millis
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* @property {() => void} cb
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* @property {boolean} resolved
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* @property {ScheduledTimer | null} prev
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* @property {ScheduledTimer | null} next
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*/
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/**
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* A doubly linked list of timers.
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* @type { { head: ScheduledTimer | null, tail: ScheduledTimer | null } }
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*/
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const scheduledTimers = { head: null, tail: null };
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/**
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* @param {() => void} cb Will be run after the timeout, if it hasn't been
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* cancelled.
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* @param {number} millis
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* @param {{ cancelRid: number, isRef: boolean, promiseId: number }} timerInfo
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*/
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function runAfterTimeout(cb, millis, timerInfo) {
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const cancelRid = timerInfo.cancelRid;
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const sleepPromise = core.opAsync("op_sleep", millis, cancelRid);
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timerInfo.promiseId =
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sleepPromise[SymbolFor("Deno.core.internalPromiseId")];
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if (!timerInfo.isRef) {
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core.unrefOp(timerInfo.promiseId);
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}
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/** @type {ScheduledTimer} */
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const timerObject = {
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millis,
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cb,
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resolved: false,
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prev: scheduledTimers.tail,
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next: null,
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};
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// Add timerObject to the end of the list.
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if (scheduledTimers.tail === null) {
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assert(scheduledTimers.head === null);
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scheduledTimers.head = scheduledTimers.tail = timerObject;
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} else {
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scheduledTimers.tail.next = timerObject;
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scheduledTimers.tail = timerObject;
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}
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// 1.
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PromisePrototypeThen(
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sleepPromise,
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() => {
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// 2. Wait until any invocations of this algorithm that had the same
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// global and orderingIdentifier, that started before this one, and
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// whose milliseconds is equal to or less than this one's, have
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// completed.
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// 4. Perform completionSteps.
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// IMPORTANT: Since the sleep ops aren't guaranteed to resolve in the
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// right order, whenever one resolves, we run through the scheduled
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// timers list (which is in the order in which they were scheduled), and
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// we call the callback for every timer which both:
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// a) has resolved, and
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// b) its timeout is lower than the lowest unresolved timeout found so
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// far in the list.
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timerObject.resolved = true;
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let lowestUnresolvedTimeout = NumberPOSITIVE_INFINITY;
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let currentEntry = scheduledTimers.head;
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while (currentEntry !== null) {
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if (currentEntry.millis < lowestUnresolvedTimeout) {
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if (currentEntry.resolved) {
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currentEntry.cb();
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removeFromScheduledTimers(currentEntry);
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} else {
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lowestUnresolvedTimeout = currentEntry.millis;
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}
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}
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currentEntry = currentEntry.next;
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}
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},
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(err) => {
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if (ObjectPrototypeIsPrototypeOf(core.InterruptedPrototype, err)) {
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// The timer was cancelled.
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removeFromScheduledTimers(timerObject);
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} else {
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throw err;
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}
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},
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);
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}
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/** @param {ScheduledTimer} timerObj */
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function removeFromScheduledTimers(timerObj) {
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if (timerObj.prev !== null) {
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timerObj.prev.next = timerObj.next;
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} else {
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assert(scheduledTimers.head === timerObj);
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scheduledTimers.head = timerObj.next;
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}
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if (timerObj.next !== null) {
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timerObj.next.prev = timerObj.prev;
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} else {
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assert(scheduledTimers.tail === timerObj);
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scheduledTimers.tail = timerObj.prev;
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}
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}
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// ---------------------------------------------------------------------------
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function checkThis(thisArg) {
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if (thisArg !== null && thisArg !== undefined && thisArg !== globalThis) {
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throw new TypeError("Illegal invocation");
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}
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}
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function setTimeout(callback, timeout = 0, ...args) {
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checkThis(this);
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if (typeof callback !== "function") {
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callback = webidl.converters.DOMString(callback);
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}
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timeout = webidl.converters.long(timeout);
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return initializeTimer(callback, timeout, args, false);
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}
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function setInterval(callback, timeout = 0, ...args) {
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checkThis(this);
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if (typeof callback !== "function") {
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callback = webidl.converters.DOMString(callback);
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}
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timeout = webidl.converters.long(timeout);
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return initializeTimer(callback, timeout, args, true);
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}
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function clearTimeout(id = 0) {
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checkThis(this);
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id = webidl.converters.long(id);
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const timerInfo = MapPrototypeGet(activeTimers, id);
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if (timerInfo !== undefined) {
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core.tryClose(timerInfo.cancelRid);
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MapPrototypeDelete(activeTimers, id);
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}
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}
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function clearInterval(id = 0) {
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checkThis(this);
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clearTimeout(id);
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}
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function refTimer(id) {
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const timerInfo = MapPrototypeGet(activeTimers, id);
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if (timerInfo === undefined || timerInfo.isRef) {
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return;
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}
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timerInfo.isRef = true;
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core.refOp(timerInfo.promiseId);
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}
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function unrefTimer(id) {
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const timerInfo = MapPrototypeGet(activeTimers, id);
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if (timerInfo === undefined || !timerInfo.isRef) {
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return;
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}
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timerInfo.isRef = false;
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core.unrefOp(timerInfo.promiseId);
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}
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window.__bootstrap.timers = {
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setTimeout,
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setInterval,
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clearTimeout,
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clearInterval,
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handleTimerMacrotask,
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opNow,
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sleepSync,
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refTimer,
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unrefTimer,
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};
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})(this);
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