perf: make timeline rendering less janky (#1747)
* perf: make timeline rendering less janky 1. Ensures all statuses are rendered from top to bottom (no more shuffling-card-effect rendering) 2. Wraps all individual status renders in their own requestIdleCallback to improve input responsiveness especially only slow devices like Nexus 5. * fix focus restoration * only do rIC on mobile
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@ -163,6 +163,7 @@
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"matchMedia",
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"performance",
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"postMessage",
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"queueMicrotask",
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"requestAnimationFrame",
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"requestIdleCallback",
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"self",
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@ -43,29 +43,13 @@ async function decodeAllBlurhashes (statusOrNotification) {
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}))
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stop(`decodeBlurhash-${status.id}`)
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}
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return statusOrNotification
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}
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export function createMakeProps (instanceName, timelineType, timelineValue) {
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let taskCount = 0
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let pending = []
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let promiseChain = Promise.resolve()
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tryInitBlurhash() // start the blurhash worker a bit early to save time
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// The worker-powered indexeddb promises can resolve in arbitrary order,
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// causing the timeline to load in a jerky way. With this function, we
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// wait for all promises to resolve before resolving them all in one go.
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function awaitAllTasksComplete () {
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return new Promise(resolve => {
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taskCount--
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pending.push(resolve)
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if (taskCount === 0) {
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pending.forEach(_ => _())
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pending = []
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}
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})
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}
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async function fetchFromIndexedDB (itemId) {
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mark(`fetchFromIndexedDB-${itemId}`)
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try {
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@ -78,13 +62,20 @@ export function createMakeProps (instanceName, timelineType, timelineValue) {
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}
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}
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return (itemId) => {
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taskCount++
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async function getStatusOrNotification (itemId) {
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const statusOrNotification = await fetchFromIndexedDB(itemId)
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await decodeAllBlurhashes(statusOrNotification)
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return statusOrNotification
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}
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return fetchFromIndexedDB(itemId)
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.then(decodeAllBlurhashes)
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.then(statusOrNotification => {
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return awaitAllTasksComplete().then(() => statusOrNotification)
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// The results from IndexedDB or the worker thread can return in random order,
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// so we ensure consistent ordering based on the order this function is called in.
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return itemId => {
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const getStatusOrNotificationPromise = getStatusOrNotification(itemId) // start the promise ASAP
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return new Promise((resolve, reject) => {
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promiseChain = promiseChain
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.then(() => getStatusOrNotificationPromise)
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.then(resolve, reject)
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})
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}
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}
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@ -1,11 +1,8 @@
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import { showMoreItemsForCurrentTimeline } from './timeline'
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import { scrollToTop } from '../_utils/scrollToTop'
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import { scheduleIdleTask } from '../_utils/scheduleIdleTask'
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import { createStatusOrNotificationUuid } from '../_utils/createStatusOrNotificationUuid'
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import { store } from '../_store/store'
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const RETRIES = 5
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const TIMEOUT = 50
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import { tryToFocusElement } from '../_utils/tryToFocusElement'
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export function showMoreAndScrollToTop () {
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// Similar to Twitter, pressing "." will click the "show more" button and select
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@ -24,25 +21,9 @@ export function showMoreAndScrollToTop () {
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const notificationId = currentTimelineType === 'notifications' && firstItemSummary.id
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const statusId = currentTimelineType !== 'notifications' && firstItemSummary.id
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scrollToTop(/* smooth */ false)
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// try 5 times to wait for the element to be rendered and then focus it
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let count = 0
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const tryToFocusElement = () => {
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const uuid = createStatusOrNotificationUuid(
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const id = createStatusOrNotificationUuid(
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currentInstance, currentTimelineType,
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currentTimelineValue, notificationId, statusId
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)
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const element = document.getElementById(uuid)
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if (element) {
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try {
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element.focus({ preventScroll: true })
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} catch (e) {
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console.error(e)
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}
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} else {
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if (++count <= RETRIES) {
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setTimeout(() => scheduleIdleTask(tryToFocusElement), TIMEOUT)
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}
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}
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}
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scheduleIdleTask(tryToFocusElement)
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tryToFocusElement(id)
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}
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@ -7,7 +7,7 @@
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<script>
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import { PAGE_HISTORY_SIZE } from '../_static/pages'
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import { QuickLRU } from '../_thirdparty/quick-lru/quick-lru'
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import { doubleRAF } from '../_utils/doubleRAF'
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import { tryToFocusElement } from '../_utils/tryToFocusElement'
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const cache = new QuickLRU({ maxSize: PAGE_HISTORY_SIZE })
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@ -64,16 +64,7 @@
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return
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}
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console.log('restoreFocus', realm, elementId)
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doubleRAF(() => {
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const element = document.getElementById(elementId)
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if (element) {
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try {
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element.focus({ preventScroll: true })
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} catch (err) {
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console.warn('failed to focus', elementId, err)
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}
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}
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})
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tryToFocusElement(elementId)
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},
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clearFocus () {
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const { realm } = this.get()
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@ -9,16 +9,43 @@
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<script>
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import VirtualListItem from './VirtualListItem'
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import { mark, stop } from '../../_utils/marks'
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import { scheduleIdleTask } from '../../_utils/scheduleIdleTask'
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import { createPriorityQueue } from '../../_utils/createPriorityQueue'
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import { isMobile } from '../../_utils/userAgent/isMobile'
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// In Svelte's implementation of lists, these VirtualListLazyItems can be
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// created in any order. By default in fact it seems to do it in reverse
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// order, which we don't really want, because then items render in a janky
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// way, with the last ones first and then replaced by the first ones,
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// resulting in a UI that looks like a deck of cards being shuffled.
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// This functions waits a microtask and then ensures that the callbacks
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// are called by index, in ascending order.
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const priorityQueue = createPriorityQueue()
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export default {
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async oncreate () {
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const { makeProps, key } = this.get()
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const { makeProps, key, index } = this.get()
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if (makeProps) {
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await priorityQueue(index)
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const props = await makeProps(key)
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const setProps = () => {
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mark('VirtualListLazyItem set props')
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this.set({ props: props })
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stop('VirtualListLazyItem set props')
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}
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// On mobile, render in rIC for maximum input responsiveness. The reason we do
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// different behavior for desktop versus mobile is:
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// 1. On desktop, the scrollbar is really distracting as it changes size. It may
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// even cause issues for people with vestibular disorders (see also prefers-reduced-motion).
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// 2. On mobile, the CPU is generally slower, so we want better input responsiveness.
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// TODO: someday we can use isInputPending as a better way to break up work
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// https://www.chromestatus.com/feature/5719830432841728
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if (isMobile()) {
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scheduleIdleTask(setProps)
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} else {
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setProps()
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}
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}
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},
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data: () => ({
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props: undefined
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@ -0,0 +1,24 @@
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// Promise-based implementation that waits a microtask tick
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// and executes the resolve() functions in priority order
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import { queueMicrotask } from './queueMicrotask'
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export function createPriorityQueue () {
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const tasks = []
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function flush () {
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if (tasks.length) {
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const sortedTasks = tasks.sort((a, b) => a.priority < b.priority ? -1 : 1)
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for (const task of sortedTasks) {
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task.resolve()
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}
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tasks.length = 0
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}
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}
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return function next (priority) {
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return new Promise(resolve => {
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tasks.push({ priority, resolve })
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queueMicrotask(flush)
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})
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}
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}
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@ -0,0 +1,12 @@
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// via https://developer.mozilla.org/en-US/docs/Web/API/WindowOrWorkerGlobalScope/queueMicrotask
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function queueMicrotaskPolyfill (callback) {
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Promise.resolve()
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.then(callback)
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.catch(e => setTimeout(() => { throw e }))
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}
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const qM = typeof queueMicrotask === 'function' ? queueMicrotask : queueMicrotaskPolyfill
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export {
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qM as queueMicrotask
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}
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@ -0,0 +1,25 @@
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// try 5 times to wait for the element to be rendered and then focus it
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import { scheduleIdleTask } from './scheduleIdleTask'
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const RETRIES = 5
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const TIMEOUT = 50
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export async function tryToFocusElement (id) {
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for (let i = 0; i < RETRIES; i++) {
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if (i > 0) {
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await new Promise(resolve => setTimeout(resolve, TIMEOUT))
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}
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await new Promise(resolve => scheduleIdleTask(resolve))
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const element = document.getElementById(id)
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if (element) {
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try {
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element.focus({ preventScroll: true })
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console.log('focused element', id)
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return
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} catch (e) {
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console.error(e)
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}
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}
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}
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console.log('failed to focus element', id)
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}
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