main-thread-scheduling

Consistently responsive apps while staying on the main thread

Usage no npm install needed!

<script type="module">
  import mainThreadScheduling from 'https://cdn.skypack.dev/main-thread-scheduling';
</script>

README



main-thread-scheduling

Consistently responsive apps while staying on the main thread

Build Status Test Coverage Minified Size


Install

npm install main-thread-scheduling

Overview

The library lets you run computationally heavy tasks on the main thread while ensuring:

  • Your app's UI doesn't freeze.
  • Your users' computer fans don't spin.
  • It can be easily integrated into your existing codebase.

Use Cases

  • You want to turn a synchronous function into a non-blocking asynchronous function. Avoids UI freezes.
  • You want to render important elements first and less urgent ones second. Improves perceived performance.
  • You want to run a long background task that doesn't spin the fans after a while. Avoids bad reputation.
  • You want to run multiple backgrounds tasks that don't degrade your app performance with time. Prevents death by a thousand cuts.

How It Works

An in-depth overview is available here. These are the main things the library does to do it's magic:

  • Stops task execution when user interacts with the UI. Uses navigator.scheduling.isInputPending() and fallbacks to using either IdleDeadline or MessageChannel.
  • Global queue. Multiple tasks are executed one by one so increasing the number of tasks doesn't degrade performance linearly.
  • Sorts tasks by importance. Sorts by priority and gives priority to tasks requested later.
  • Urgent UI changes are given highest priority possible. Tasks with user-visible priority are optimized to deliver smooth UX.
  • Considerate about your existing code. Tasks with background priority are executed last so there isn't some unexpected work that slows down the main thread after the background task is finished.

Why

Why rely on some open-source library to ensure a good performance for my app?

  • Not a weekend project. I've already been using it for a year in two of my products — Nota and iBar. If you want to dive deeper, you can read the in-depth doc.
  • This is the future. Browsers are probably going to support scheduling tasks on the main thread in the future. Here is the spec. This library will still be relevant in the future because it provides an easier API.
  • Simple. 90% of the time you only need yieldOrContinue(priority) function. The API has two more functions for more advanced cases.
  • Aiming for high-quality with my open-source principles.

Example

You can see the library in action in this CodeSandbox. Try removing the call to yieldToContinue() and then type in the input to see the difference.

API

If you want to understand how this library works under the hook and some of the details – read the in-depth doc.

yieldOrContinue(priority: 'background' | 'user-visible')

The complexity of the entire library is hidden behind this method. You can have great app performance by calling a single method.

async function findInFiles(query: string) {  
    for (const file of files) {
        await yieldOrContinue('user-visible')
        
        for (const line of file.lines) {
            fuzzySearchLine(line, query)
        }
    }
}

More complex scenarios

The library has two more functions available:

  • yieldControl(priority: 'background' | 'user-visible')
  • isTimeToYield(priority: 'background' | 'user-visible')

These two functions are used together to handle more advanced use cases.

A simple use case where you will need those two functions is when you want to render your view before yielding back control to the browser to continue its work:

async function doHeavyWork() {
    for (const value of values) {
        if (isTimeToYield('user-visible')) {
            render()
            await yieldControl('user-visible')
        }
        
        computeHeavyWorkOnValue(value)
    }
}

Priorities

Currently there are only two priorities available: background and user-visible:

  • background – use this for background tasks. Every background task is run for 5ms.
  • user-visible – use this for things that need to display to the user as fast as possible. Every user-visible task is run for 83ms – this gives you a nice cycle of doing heavy work and letting the browser render pending changes.

If you have a use case for a third priority, you can write in this issue.

Alternatives

The problem this library solves isn't new. However, I haven't found a library that can solve this problem in a simple manner. Open an issue if there is such a library so I can add it here.

Web Workers are a possible alternative. However, in reality, it's rare to see people using them. That's because they require significant investment of time due to the complexity that can't be avoided when working with CPU threads regardless of the programming language.

React has an implementation for scheduling tasks – react/scheduler. They plan to make it more generic but there doesn't seem to be a public roadmap for that.