web-vitals
Overview
The web-vitals
library is a tiny (~1.5K, brotli'd), modular library for measuring all the Web Vitals metrics on real users, in a way that accurately matches how they're measured by Chrome and reported to other Google tools (e.g. Chrome User Experience Report, Page Speed Insights, Search Console's Speed Report).
The library supports all of the Core Web Vitals as well as a number of other metrics that are useful in diagnosing real-user performance issues.
Core Web Vitals
Other metrics
Install and load the library
From npm
You can install this library from npm by running:
npm install web-vitals
Note: If you're not using npm, you can still load web-vitals
via <script>
tags from a CDN like unpkg.com. See the load web-vitals
from a CDN usage example below for details.
There are a few different builds of the web-vitals
library, and how you load the library depends on which build you want to use.
For details on the difference between the builds, see which build is right for you.
1. The "standard" build
To load the "standard" build, import modules from the web-vitals
package in your application code (as you would with any npm package and node-based build tool):
import {onLCP, onFID, onCLS} from 'web-vitals';
onCLS(console.log);
onFID(console.log);
onLCP(console.log);
Note: in version 2, these functions were named getXXX()
rather than onXXX()
. They've been renamed in version 3 to reduce confusion (see #217 for details) and will continue to be available using the getXXX()
until at least version 4. Users are encouraged to switch to the new names, though, for future compatibility.
2. The "attribution" build
Measuring the Web Vitals scores for your real users is a great first step toward optimizing the user experience. But if your scores aren't good, the next step is to understand why they're not good and work to improve them.
The "attribution" build helps you do that by including additional diagnostic information with each metric to help you identify the root cause of poor performance as well as prioritize the most important things to fix.
The "attribution" build is slightly larger than the "standard" build (by about 600 bytes, brotli'd), so while the code size is still small, it's only recommended if you're actually using these features.
To load the "attribution" build, change any import
statements that reference web-vitals
to web-vitals/attribution
:
- import {onLCP, onFID, onCLS} from 'web-vitals';
+ import {onLCP, onFID, onCLS} from 'web-vitals/attribution';
Usage for each of the imported function is identical to the standard build, but when importing from the attribution build, the Metric
object will contain an additional attribution
property.
See Send attribution data for usage examples, and the attribution
reference for details on what values are added for each metric.
3. The "base+polyfill" build
⚠️ Warning ⚠️ the "base+polyfill" build is deprecated. See #238 for details.
Loading the "base+polyfill" build is a two-step process:
First, in your application code, import the "base" build rather than the "standard" build. To do this, change any import
statements that reference web-vitals
to web-vitals/base
:
- import {onLCP, onFID, onCLS} from 'web-vitals';
+ import {onLCP, onFID, onCLS} from 'web-vitals/base';
Then, inline the code from dist/polyfill.js
into the <head>
of your pages. This step is important since the "base" build will error if the polyfill code has not been added.
<!DOCTYPE html>
<html>
<head>
<script>
</script>
</head>
<body>
...
</body>
</html>
It's important that the code is inlined directly into the HTML. *Do not link to an external script file, as that will negatively affect performance:
<script>
</script>
<script src="/path/to/polyfill.js"></script>
Also note that the code must go in the <head>
of your pages in order to work. See how the polyfill works for more details.
Tip: while it's certainly possible to inline the code in dist/polyfill.js
by copy and pasting it directly into your templates, it's better to automate this process in a build step—otherwise you risk the "base" and the "polyfill" scripts getting out of sync when new versions are released.
From a CDN
The recommended way to use the web-vitals
package is to install it from npm and integrate it into your build process. However, if you're not using npm, it's still possible to use web-vitals
by requesting it from a CDN that serves npm package files.
The following examples show how to load web-vitals
from unpkg.com:
Important! The unpkg.com CDN is shown here for example purposes only. unpkg.com
is not affiliated with Google, and there are no guarantees that the URLs shown in these examples will continue to work in the future.
Load the "standard" build (using a module script)
<script type="module">
import {onCLS, onFID, onLCP} from 'https://unpkg.com/web-vitals@3?module';
onCLS(console.log);
onFID(console.log);
onLCP(console.log);
</script>
Load the "standard" build (using a classic script)
<script>
(function() {
var script = document.createElement('script');
script.src = 'https://unpkg.com/web-vitals@3/dist/web-vitals.iife.js';
script.onload = function() {
webVitals.onCLS(console.log);
webVitals.onFID(console.log);
webVitals.onLCP(console.log);
}
document.head.appendChild(script);
}())
</script>
Load the "attribution" build (using a module script)
<script type="module">
import {onCLS, onFID, onLCP} from 'https://unpkg.com/web-vitals@3/dist/web-vitals.attribution.js?module';
onCLS(console.log);
onFID(console.log);
onLCP(console.log);
</script>
Load the "attribution" build (using a classic script)
<script>
(function() {
var script = document.createElement('script');
script.src = 'https://unpkg.com/web-vitals@3/dist/web-vitals.attribution.iife.js';
script.onload = function() {
webVitals.onCLS(console.log);
webVitals.onFID(console.log);
webVitals.onLCP(console.log);
}
document.head.appendChild(script);
}())
</script>
Usage
Basic usage
Each of the Web Vitals metrics is exposed as a single function that takes a callback
function that will be called any time the metric value is available and ready to be reported.
The following example measures each of the Core Web Vitals metrics and logs the result to the console once its value is ready to report.
(The examples below import the "standard" build, but they will work with the "attribution" build as well.)
import {onCLS, onFID, onLCP} from 'web-vitals';
onCLS(console.log);
onFID(console.log);
onLCP(console.log);
Note that some of these metrics will not report until the user has interacted with the page, switched tabs, or the page starts to unload. If you don't see the values logged to the console immediately, try reloading the page (with preserve log enabled) or switching tabs and then switching back.
Also, in some cases a metric callback may never be called:
- FID is not reported if the user never interacts with the page.
- CLS, FCP, FID, and LCP are not reported if the page was loaded in the background.
In other cases, a metric callback may be called more than once:
Warning: do not call any of the Web Vitals functions (e.g. onCLS()
, onFID()
, onLCP()
) more than once per page load. Each of these functions creates a PerformanceObserver
instance and registers event listeners for the lifetime of the page. While the overhead of calling these functions once is negligible, calling them repeatedly on the same page may eventually result in a memory leak.
Report the value on every change
In most cases, you only want the callback
function to be called when the metric is ready to be reported. However, it is possible to report every change (e.g. each layout shift as it happens) by setting reportAllChanges
to true
in the optional, configuration object (second parameter).
This can be useful when debugging, but in general using reportAllChanges
is not needed (or recommended) for measuring these metrics in production.
import {onCLS} from 'web-vitals';
onCLS(console.log, {reportAllChanges: true});
Report only the delta of changes
Some analytics providers allow you to update the value of a metric, even after you've already sent it to their servers (overwriting the previously-sent value with the same id
).
Other analytics providers, however, do not allow this, so instead of reporting the new value, you need to report only the delta (the difference between the current value and the last-reported value). You can then compute the total value by summing all metric deltas sent with the same ID.
The following example shows how to use the id
and delta
properties:
import {onCLS, onFID, onLCP} from 'web-vitals';
function logDelta({name, id, delta}) {
console.log(`${name} matching ID ${id} changed by ${delta}`);
}
onCLS(logDelta);
onFID(logDelta);
onLCP(logDelta);
Note: the first time the callback
function is called, its value
and delta
properties will be the same.
In addition to using the id
field to group multiple deltas for the same metric, it can also be used to differentiate different metrics reported on the same page. For example, after a back/forward cache restore, a new metric object is created with a new id
(since back/forward cache restores are considered separate page visits).
Send the results to an analytics endpoint
The following example measures each of the Core Web Vitals metrics and reports them to a hypothetical /analytics
endpoint, as soon as each is ready to be sent.
The sendToAnalytics()
function uses the navigator.sendBeacon()
method (if available), but falls back to the fetch()
API when not.
import {onCLS, onFID, onLCP} from 'web-vitals';
function sendToAnalytics(metric) {
const body = JSON.stringify(metric);
(navigator.sendBeacon && navigator.sendBeacon('/analytics', body)) ||
fetch('/analytics', {body, method: 'POST', keepalive: true});
}
onCLS(sendToAnalytics);
onFID(sendToAnalytics);
onLCP(sendToAnalytics);
Send the results to Google Analytics
Google Analytics does not support reporting metric distributions in any of its built-in reports; however, if you set a unique dimension value (in this case, the metric id
, as shown in the examples below) on every metric instance that you send to Google Analytics, you can create a report yourself using the Google Analytics Reporting API and any data visualization library you choose.
As an example of this, the Web Vitals Report is a free and open-source tool you can use to create visualizations of the Web Vitals data that you've sent to Google Analytics.
In order to use the Web Vitals Report (or build your own custom reports using the API) you need to send your data to Google Analytics following one of the examples outlined below:
Using analytics.js
import {onCLS, onFID, onLCP} from 'web-vitals';
function sendToGoogleAnalytics({name, delta, id}) {
ga('send', 'event', {
eventCategory: 'Web Vitals',
eventAction: name,
eventLabel: id,
eventValue: Math.round(name === 'CLS' ? delta * 1000 : delta),
nonInteraction: true,
transport: 'beacon',
});
}
onCLS(sendToGoogleAnalytics);
onFID(sendToGoogleAnalytics);
onLCP(sendToGoogleAnalytics);
Using gtag.js
(Universal Analytics)
import {onCLS, onFID, onLCP} from 'web-vitals';
function sendToGoogleAnalytics({name, delta, id}) {
gtag('event', name, {
event_category: 'Web Vitals',
event_label: id,
value: Math.round(name === 'CLS' ? delta * 1000 : delta),
non_interaction: true,
});
}
onCLS(sendToGoogleAnalytics);
onFID(sendToGoogleAnalytics);
onLCP(sendToGoogleAnalytics);
Using gtag.js
(Google Analytics 4)
Google Analytics 4 introduces a new Event model allowing custom parameters instead of a fixed category, action, and label. It also supports non-integer values, making it easier to measure Web Vitals metrics compared to previous versions.
import {onCLS, onFID, onLCP} from 'web-vitals';
function sendToGoogleAnalytics({name, delta, value, id}) {
gtag('event', name, {
value: delta,
metric_id: id,
metric_value: value,
metric_delta: delta,
});
}
onCLS(sendToGoogleAnalytics);
onFID(sendToGoogleAnalytics);
onLCP(sendToGoogleAnalytics);
Send the results to Google Tag Manager
The recommended way to measure Web Vitals metrics with Google Tag Manager is using the Core Web Vitals custom template tag created and maintained by Simo Ahava.
For full installation and usage instructions, see Simo's post: Track Core Web Vitals in GA4 with Google Tag Manager.
Send attribution data
When using the attribution build, you can send additional data to help you debug why the metric values are they way they are.
This example sends an additional debug_target
param to Google Analytics, corresponding to the element most associated with each metric.
import {onCLS, onFID, onLCP} from 'web-vitals/attribution';
function sendToGoogleAnalytics({name, delta, value, id, attribution}) {
const eventParams = {
value: delta,
metric_id: id,
metric_value: value,
metric_delta: delta,
}
switch (name) {
case 'CLS':
eventParams.debug_target = attribution.largestShiftTarget;
break;
case 'FID':
eventParams.debug_target = attribution.eventTarget;
break;
case 'LCP':
eventParams.debug_target = attribution.element;
break;
}
gtag('event', name, eventParams);
}
onCLS(sendToGoogleAnalytics);
onFID(sendToGoogleAnalytics);
onLCP(sendToGoogleAnalytics);
Note: this example relies on custom event parameters in Google Analytics 4. For Universal Analytics the attribution data should be set using a custom dimension rather than debug_target
as shown above.
See Debug performance in the field for more information and examples.
Batch multiple reports together
Rather than reporting each individual Web Vitals metric separately, you can minimize your network usage by batching multiple metric reports together in a single network request.
However, since not all Web Vitals metrics become available at the same time, and since not all metrics are reported on every page, you cannot simply defer reporting until all metrics are available.
Instead, you should keep a queue of all metrics that were reported and flush the queue whenever the page is backgrounded or unloaded:
import {onCLS, onFID, onLCP} from 'web-vitals';
const queue = new Set();
function addToQueue(metric) {
queue.add(metric);
}
function flushQueue() {
if (queue.size > 0) {
const body = JSON.stringify([...queue]);
(navigator.sendBeacon && navigator.sendBeacon('/analytics', body)) ||
fetch('/analytics', {body, method: 'POST', keepalive: true});
queue.clear();
}
}
onCLS(addToQueue);
onFID(addToQueue);
onLCP(addToQueue);
addEventListener('visibilitychange', () => {
if (document.visibilityState === 'hidden') {
flushQueue();
}
});
addEventListener('pagehide', flushQueue);
Note: see the Page Lifecycle guide for an explanation of why visibilitychange
and pagehide
are recommended over events like beforeunload
and unload
.
Build options
The web-vitals
package includes builds for the "standard", "attribution", and "base+polyfill" (deprecated) builds, as well as different formats of each to allow developers to choose the format that best meets their needs or integrates with their architecture.
The following table lists all the builds distributed with the web-vitals
package on npm.
Filename (all within dist/* )
| Export | Description |
web-vitals.js | pkg.module |
An ES module bundle of all metric functions, without any attribution features.
This is the "standard" build and is the simplest way to consume this library out of the box.
|
web-vitals.umd.cjs | pgk.main |
A UMD version of the web-vitals.js bundle (exposed on the window.webVitals.* namespace).
|
web-vitals.iife.js | -- |
An IIFE version of the web-vitals.js bundle (exposed on the window.webVitals.* namespace).
|
web-vitals.attribution.js | -- |
An ES module version of all metric functions that includes attribution features.
|
web-vitals.attribution.umd.cjs | -- |
A UMD version of the web-vitals.attribution.js build (exposed on the window.webVitals.* namespace).
|
web-vitals.attribution.iife.js | -- |
An IIFE version of the web-vitals.attribution.js build (exposed on the window.webVitals.* namespace).
|
web-vitals.base.js | -- |
This build has been deprecated.
An ES module bundle containing just the "base" part of the "base+polyfill" version.
Use this bundle if (and only if) you've also added the polyfill.js script to the <head> of your pages. See how to use the polyfill for more details.
|
web-vitals.base.umd.cjs | -- |
This build has been deprecated.
A UMD version of the web-vitals.base.js bundle (exposed on the window.webVitals.* namespace).
|
web-vitals.base.iife.js | -- |
This build has been deprecated.
An IIFE version of the web-vitals.base.js bundle (exposed on the window.webVitals.* namespace).
|
polyfill.js | -- |
This build has been deprecated.
The "polyfill" part of the "base+polyfill" version. This script should be used with either web-vitals.base.js , web-vitals.base.umd.cjs , or web-vitals.base.iife.js (it will not work with any script that doesn't have "base" in the filename).
See how to use the polyfill for more details.
|
Which build is right for you?
Most developers will generally want to use "standard" build (via either the ES module or UMD version, depending on your bundler/build system), as it's the easiest to use out of the box and integrate into existing tools.
However, if you'd lke to collect additional debug information to help you diagnose performance bottlenecks based on real-user issues, use the "attribution" build.
For guidance on how to collect and use real-user data to debug performance issues, see Debug performance in the field.
How the polyfill works
⚠️ Warning ⚠️ the "base+polyfill" build is deprecated. See #238 for details.
The polyfill.js
script adds event listeners (to track FID cross-browser), and it records initial page visibility state as well as the timestamp of the first visibility change to hidden (to improve the accuracy of CLS, FCP, LCP, and FID). It also polyfills the Navigation Timing API Level 2 in browsers that only support the original (now deprecated) Navigation Timing API.
In order for the polyfill to work properly, the script must be the first script added to the page, and it must run before the browser renders any content to the screen. This is why it needs to be added to the <head>
of the document.
The "standard" build of the web-vitals
library includes some of the same logic found in polyfill.js
. To avoid duplicating that code when using the "base+polyfill" build, the web-vitals.base.js
bundle does not include any polyfill logic, instead it coordinates with the code in polyfill.js
, which is why the two scripts must be used together.
API
Types:
Metric
interface Metric {
name: 'CLS' | 'FCP' | 'FID' | 'INP' | 'LCP' | 'TTFB';
value: number;
rating: 'good' | 'needs-improvement' | 'poor';
delta: number;
id: string;
entries: (PerformanceEntry | LayoutShift | FirstInputPolyfillEntry | NavigationTimingPolyfillEntry)[];
navigationType: 'navigate' | 'reload' | 'back-forward' | 'back-forward-cache' | 'prerender';
}
Metric-specific subclasses:
MetricWithAttribution
See the attribution build section for details on how to use this feature.
interface MetricWithAttribution extends Metric {
attribution: {[key: string]: unknown};
}
Metric-specific subclasses:
ReportCallback
interface ReportCallback {
(metric: Metric): void;
}
Metric-specific subclasses:
ReportOpts
interface ReportOpts {
reportAllChanges?: boolean;
durationThreshold?: number;
}
LoadState
The LoadState
type is used in several of the metric attribution objects.
type LoadState = 'loading' | 'dom-interactive' | 'dom-content-loaded' | 'complete';
FirstInputPolyfillEntry
If using the "base+polyfill" build (and if the browser doesn't natively support the Event Timing API), the metric.entries
reported by onFID()
will contain an object that polyfills the PerformanceEventTiming
entry:
type FirstInputPolyfillEntry = Omit<PerformanceEventTiming, 'processingEnd' | 'toJSON'>
FirstInputPolyfillCallback
interface FirstInputPolyfillCallback {
(entry: FirstInputPolyfillEntry): void;
}
NavigationTimingPolyfillEntry
If using the "base+polyfill" build (and if the browser doesn't support the Navigation Timing API Level 2 interface), the metric.entries
reported by onTTFB()
will contain an object that polyfills the PerformanceNavigationTiming
entry using timings from the legacy performance.timing
interface:
type NavigationTimingPolyfillEntry = Omit<PerformanceNavigationTiming,
'initiatorType' | 'nextHopProtocol' | 'redirectCount' | 'transferSize' |
'encodedBodySize' | 'decodedBodySize' | 'type'> & {
type: PerformanceNavigationTiming['type'];
}
WebVitalsGlobal
If using the "base+polyfill" build, the polyfill.js
script creates the global webVitals
namespace matching the following interface:
interface WebVitalsGlobal {
firstInputPolyfill: (onFirstInput: FirstInputPolyfillCallback) => void;
resetFirstInputPolyfill: () => void;
firstHiddenTime: number;
}
Functions:
onCLS()
type onCLS = (callback: CLSReportCallback, opts?: ReportOpts) => void
Calculates the CLS value for the current page and calls the callback
function once the value is ready to be reported, along with all layout-shift
performance entries that were used in the metric value calculation. The reported value is a double (corresponding to a layout shift score).
If the reportAllChanges
configuration option is set to true
, the callback
function will be called as soon as the value is initially determined as well as any time the value changes throughout the page lifespan.
Important: CLS should be continually monitored for changes throughout the entire lifespan of a page—including if the user returns to the page after it's been hidden/backgrounded. However, since browsers often will not fire additional callbacks once the user has backgrounded a page, callback
is always called when the page's visibility state changes to hidden. As a result, the callback
function might be called multiple times during the same page load (see Reporting only the delta of changes for how to manage this).
onFCP()
type onFCP = (callback: FCPReportCallback, opts?: ReportOpts) => void
Calculates the FCP value for the current page and calls the callback
function once the value is ready, along with the relevant paint
performance entry used to determine the value. The reported value is a DOMHighResTimeStamp
.
onFID()
type onFID = (callback: FIDReportCallback, opts?: ReportOpts) => void
Calculates the FID value for the current page and calls the callback
function once the value is ready, along with the relevant first-input
performance entry used to determine the value. The reported value is a DOMHighResTimeStamp
.
Important: since FID is only reported after the user interacts with the page, it's possible that it will not be reported for some page loads.
onINP()
type onINP = (callback: INPReportCallback, opts?: ReportOpts) => void
Calculates the INP value for the current page and calls the callback
function once the value is ready, along with the event
performance entries reported for that interaction. The reported value is a DOMHighResTimeStamp
.
A custom durationThreshold
configuration option can optionally be passed to control what event-timing
entries are considered for INP reporting. The default threshold is 40
, which means INP scores of less than 40 are reported as 0. Note that this will not affect your 75th percentile INP value unless that value is also less than 40 (well below the recommended good threshold).
If the reportAllChanges
configuration option is set to true
, the callback
function will be called as soon as the value is initially determined as well as any time the value changes throughout the page lifespan.
Important: INP should be continually monitored for changes throughout the entire lifespan of a page—including if the user returns to the page after it's been hidden/backgrounded. However, since browsers often will not fire additional callbacks once the user has backgrounded a page, callback
is always called when the page's visibility state changes to hidden. As a result, the callback
function might be called multiple times during the same page load (see Reporting only the delta of changes for how to manage this).
onLCP()
type onLCP = (callback: LCPReportCallback, opts?: ReportOpts) => void
Calculates the LCP value for the current page and calls the callback
function once the value is ready (along with the relevant largest-contentful-paint
performance entry used to determine the value). The reported value is a DOMHighResTimeStamp
.
If the reportAllChanges
configuration option is set to true
, the callback
function will be called any time a new largest-contentful-paint
performance entry is dispatched, or once the final value of the metric has been determined.
onTTFB()
type onTTFB = (callback: TTFBReportCallback, opts?: ReportOpts) => void
Calculates the TTFB value for the current page and calls the callback
function once the page has loaded, along with the relevant navigation
performance entry used to determine the value. The reported value is a DOMHighResTimeStamp
.
Note, this function waits until after the page is loaded to call callback
in order to ensure all properties of the navigation
entry are populated. This is useful if you want to report on other metrics exposed by the Navigation Timing API.
For example, the TTFB metric starts from the page's time origin, which means it includes time spent on DNS lookup, connection negotiation, network latency, and server processing time.
import {onTTFB} from 'web-vitals';
onTTFB((metric) => {
const requestTime = metric.value - metric.entries[0].requestStart;
console.log('Request time:', requestTime);
});
Note: browsers that do not support navigation
entries will fall back to
using performance.timing
(with the timestamps converted from epoch time to DOMHighResTimeStamp
). This ensures code referencing these values (like in the example above) will work the same in all browsers.
Attribution:
The following objects contain potentially-helpful debugging information that can be sent along with the metric values for the current page visit in order to help identify issues happening to real-users in the field.
See the attribution build section for details on how to use this feature.
CLS attribution
:
interface CLSAttribution {
largestShiftTarget?: string;
largestShiftTime?: DOMHighResTimeStamp;
largestShiftValue?: number;
largestShiftEntry?: LayoutShift;
largestShiftSource?: LayoutShiftAttribution;
loadState?: LoadState;
}
FCP attribution
:
interface FCPAttribution {
timeToFirstByte: number;
firstByteToFCP: number;
loadState: LoadState,
fcpEntry?: PerformancePaintTiming,
navigationEntry?: PerformanceNavigationTiming | NavigationTimingPolyfillEntry;
}
FID attribution
:
interface FIDAttribution {
eventTarget: string;
eventTime: number;
eventType: string;
eventEntry: PerformanceEventTiming | FirstInputPolyfillEntry,
loadState: LoadState;
}
INP attribution
:
interface INPAttribution {
eventTarget?: string;
eventTime?: number;
eventType?: string;
eventEntry?: PerformanceEventTiming;
loadState?: LoadState;
}
LCP attribution
:
interface LCPAttribution {
element?: string,
url?: string,
timeToFirstByte: number;
resourceLoadDelay: number;
resourceLoadTime: number;
elementRenderDelay: number;
navigationEntry?: PerformanceNavigationTiming | NavigationTimingPolyfillEntry;
lcpResourceEntry?: PerformanceResourceTiming;
lcpEntry?: LargestContentfulPaint;
}
TTFB attribution
:
interface TTFBAttribution {
waitingTime: number;
dnsTime: number;
connectionTime: number;
requestTime: number;
navigationEntry?: PerformanceNavigationTiming | NavigationTimingPolyfillEntry;
}
Browser Support
The web-vitals
code has been tested and will run without error in all major browsers as well as Internet Explorer back to version 9. However, some of the APIs required to capture these metrics are currently only available in Chromium-based browsers (e.g. Chrome, Edge, Opera, Samsung Internet).
Browser support for each function is as follows:
onCLS()
: ChromiumonFCP()
: Chromium, Firefox, Safari 14.1+onFID()
: Chromium, Firefox (with polyfill: Safari, Internet Explorer)onINP()
: ChromiumonLCP()
: ChromiumonTTFB()
: Chromium, Firefox, Safari 15+ (with polyfill: Safari 8+, Internet Explorer)
Limitations
The web-vitals
library is primarily a wrapper around the Web APIs that
measure the Web Vitals metrics, which means the limitations of those APIs will
mostly apply to this library as well.
The primary limitation of these APIs is they have no visibility into <iframe>
content (not even same-origin iframes), which means pages that make use of iframes will likely see a difference between the data measured by this library and the data available in the Chrome User Experience Report (which does include iframe content).
For same-origin iframes, it's possible to use the web-vitals
library to measure metrics, but it's tricky because it requires the developer to add the library to every frame and postMessage()
the results to the parent frame for aggregation.
Note: given the lack of iframe support, the onCLS()
function technically measures DCLS (Document Cumulative Layout Shift) rather than CLS, if the page includes iframes).
Development
Building the code
The web-vitals
source code is written in TypeScript. To transpile the code and build the production bundles, run the following command.
npm run build
To build the code and watch for changes, run:
npm run watch
Running the tests
The web-vitals
code is tested in real browsers using webdriver.io. Use the following command to run the tests:
npm test
To test any of the APIs manually, you can start the test server
npm run test:server
Then navigate to http://localhost:9090/test/<view>
, where <view>
is the basename of one the templates under /test/views/.
You'll likely want to combine this with npm run watch
to ensure any changes you make are transpiled and rebuilt.
Integrations
License
Apache 2.0