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https://github.com/denoland/deno.git
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2164f6b1eb
Welcome to better optimised op calls! Currently opSync is called with parameters of every type and count. This most definitely makes the call megamorphic. Additionally, it seems that spread params leads to V8 not being able to optimise the calls quite as well (apparently Fast Calls cannot be used with spread params). Monomorphising op calls should lead to some improved performance. Now that unwrapping of sync ops results is done on Rust side, this is pretty simple: ``` opSync("op_foo", param1, param2); // -> turns to ops.op_foo(param1, param2); ``` This means sync op calls are now just directly calling the native binding function. When V8 Fast API Calls are enabled, this will enable those to be called on the optimised path. Monomorphising async ops likely requires using callbacks and is left as an exercise to the reader.
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 ops = core.ops;
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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 { reportException } = window.__bootstrap.event;
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const { assert } = window.__bootstrap.infra;
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function opNow() {
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return ops.op_now();
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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 = ops.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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if (typeof callback === "function") {
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try {
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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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} catch (error) {
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reportException(error);
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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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refTimer,
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unrefTimer,
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};
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})(this);
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