Largest Contentful Paint (LCP)
- Chrome 77, Supported 77
- Firefox, Not supported
- Edge 79, Supported 79
- Safari, Not supported
Historically, it's been a challenge for web developers to measure how quickly the main content of a web page loads and is visible to users.
Older metrics like load or DOMContentLoaded are not good because they don't necessarily correspond to what the user sees on their screen. And newer, user-centric performance metrics like First Contentful Paint (FCP) only capture the very beginning of the loading experience. If a page shows a splash screen or displays a loading indicator, this moment is not very relevant to the user.
In the past we've recommended performance metrics like First Meaningful Paint (FMP) and Speed Index (SI) (both available in Lighthouse) to help capture more of the loading experience after the initial paint, but these metrics are complex, hard to explain, and often wrong—meaning they still do not identify when the main content of the page has loaded.
Sometimes simpler is better. Based on discussions in the W3C Web Performance Working Group and research done at Google, we've found that a more accurate way to measure when the main content of a page is loaded is to look at when the largest element was rendered.
What is LCP? #
The Largest Contentful Paint (LCP) metric reports the render time of the largest image or text block visible within the viewport, relative to when the page first started loading.
What is a good LCP score? #
To provide a good user experience, sites should strive to have Largest Contentful Paint of 2.5 seconds or less. To ensure you're hitting this target for most of your users, a good threshold to measure is the 75th percentile of page loads, segmented across mobile and desktop devices.
What elements are considered? #
As currently specified in the Largest Contentful Paint API, the types of elements considered for Largest Contentful Paint are:
<img>elements<image>elements inside an<svg>element<video>elements with a poster image (the poster image load time is used)- An element with a background image loaded via the
url()function (as opposed to a CSS gradient) - Block-level elements containing text nodes or other inline-level text elements children.
- The first frame painted for autoplaying
<video>elements (as of August 2023) - The first frame of an animated image format, such as animated GIFs (as of August 2023)
As well as only considering some elements, certain heurisitics are applied to exclude certain elements that are likely to be seen as "non-contentful" to users. For Chromium-based browsers, these include:
- Elements with an opacity of 0, that are invisible to the user
- Elements that cover the full viewport, that are likely considered as background rather than content
- Placeholder images or other images with a low entropy, that likely do not reflect the true content of the page
Browsers are likely to continue to improve these heuristics to ensure we match user expectations of what the largest contentful element is.
These "contentful" heuristics may differ from those used by First Contentful Paint (FCP), which may consider some of these elements, such as placeholder images or full viewport images, even if they are ineligible to be LCP candidates. Despite both using "contentful" in their name, the aim of these metrics is different. FCP measures when any content is painted to screen and LCP when the main content is painted so LCP is intented to be more selective.
How is an element's size determined? #
The size of the element reported for Largest Contentful Paint is typically the size that's visible to the user within the viewport. If the element extends outside of the viewport, or if any of the element is clipped or has non-visible overflow, those portions do not count toward the element's size.
For image elements that have been resized from their intrinsic size, the size that gets reported is either the visible size or the intrinsic size, whichever is smaller. For example, images that are shrunk down to a much smaller than their intrinsic size will only report the size they're displayed at, whereas images that are stretched or expanded to a larger size will only report their intrinsic sizes.
For text elements, only the size of their text nodes is considered (the smallest rectangle that encompasses all text nodes).
For all elements, any margin, padding, or border applied via CSS is not considered.
When is largest contentful paint reported? #
Web pages often load in stages, and as a result, it's possible that the largest element on the page might change.
To handle this potential for change, the browser dispatches a PerformanceEntry of type largest-contentful-paint identifying the largest contentful element as soon as the browser has painted the first frame. But then, after rendering subsequent frames, it will dispatch another PerformanceEntry any time the largest contentful element changes.
For example, on a page with text and a hero image the browser may initially just render the text—at which point the browser would dispatch a largest-contentful-paint entry whose element property would likely reference a <p> or <h1>. Later, once the hero image finishes loading, a second largest-contentful-paint entry would be dispatched and its element property would reference the <img>.
It's important to note that an element can only be considered the largest contentful element once it has rendered and is visible to the user. Images that have not yet loaded are not considered "rendered". Neither are text nodes using web fonts during the font block period. In such cases a smaller element may be reported as the largest contentful element, but as soon as the larger element finishes rendering, it'll be reported via another PerformanceEntry object.
In addition to late-loading images and fonts, a page may add new elements to the DOM as new content becomes available. If any of these new elements is larger than the previous largest contentful element, a new PerformanceEntry will also be reported.
If an element that is currently the largest contentful element is removed from the viewport (or even removed from the DOM), it will remain the largest contentful element unless a larger element is rendered.
The browser will stop reporting new entries as soon as the user interacts with the page (via a tap, scroll, or keypress), as user interaction often changes what's visible to the user (which is especially true with scrolling).
For analysis purposes, you should only report the most recently dispatched PerformanceEntry to your analytics service.
Load time vs. render time #
For security reasons, the render timestamp of images is not exposed for cross-origin images that lack the Timing-Allow-Origin header. Instead, only their load time is exposed (since this is already exposed via many other web APIs).
The usage example below shows how to handle elements whose render time is not available. But, when possible, it's always recommended to set the Timing-Allow-Origin header, so your metrics will be more accurate.
How are element layout and size changes handled? #
To keep the performance overhead of calculating and dispatching new performance entries low, changes to an element's size or position do not generate new LCP candidates. Only the element's initial size and position in the viewport is considered.
This means images that are initially rendered off-screen and then transition on-screen may not be reported. It also means elements initially rendered in the viewport that then get pushed down, out of view will still report their initial, in-viewport size.
Examples #
Here are some examples of when the Largest Contentful Paint occurs on a few popular websites:
In both of the timelines above, the largest element changes as content loads. In the first example, new content is added to the DOM and that changes what element is the largest. In the second example, the layout changes and content that was previously the largest is removed from the viewport.
While it's often the case that late-loading content is larger than content already on the page, that's not necessarily the case. The next two examples show the Largest Contentful Paint occurring before the page fully loads.
In the first example, the Instagram logo is loaded relatively early and it remains the largest element even as other content is progressively shown. In the Google search results page example, the largest element is a paragraph of text that is displayed before any of the images or logo finish loading. Since all the individual images are smaller than this paragraph, it remains the largest element throughout the load process.
How to measure LCP #
LCP can be measured in the lab or in the field, and it's available in the following tools:
Field tools #
- Chrome User Experience Report
- PageSpeed Insights
- Search Console (Core Web Vitals report)
web-vitalsJavaScript library
Lab tools #
Measure LCP in JavaScript #
To measure LCP in JavaScript, you can use the Largest Contentful Paint API. The following example shows how to create a PerformanceObserver that listens for largest-contentful-paint entries and logs them to the console.
new PerformanceObserver((entryList) => {
for (const entry of entryList.getEntries()) {
console.log('LCP candidate:', entry.startTime, entry);
}
}).observe({type: 'largest-contentful-paint', buffered: true});In the above example, each logged largest-contentful-paint entry represents the current LCP candidate. In general, the startTime value of the last entry emitted is the LCP value—however, that is not always the case. Not all largest-contentful-paint entries are valid for measuring LCP.
The following section lists the differences between what the API reports and how the metric is calculated.
Differences between the metric and the API #
- The API will dispatch
largest-contentful-paintentries for pages loaded in a background tab, but those pages should be ignored when calculating LCP. - The API will continue to dispatch
largest-contentful-paintentries after a page has been backgrounded, but those entries should be ignored when calculating LCP (elements may only be considered if the page was in the foreground the entire time). - The API does not report
largest-contentful-paintentries when the page is restored from the back/forward cache, but LCP should be measured in these cases since users experience them as distinct page visits. - The API does not consider elements within iframes but the metric does as they are part of the user experience of the page. In pages with an LCP within an iframe—for example a poster image on an embedded video—this will show as a difference between CrUX and RUM. To properly measure LCP you should consider them. Sub-frames can use the API to report their
largest-contentful-paintentries to the parent frame for aggregation.
Rather than memorizing all these subtle differences, developers can use the web-vitals JavaScript library to measure LCP, which handles these differences for you (where possible):
import {onLCP} from 'web-vitals';
// Measure and log LCP as soon as it's available.
onLCP(console.log);You can refer to the source code for onLCP() for a complete example of how to measure LCP in JavaScript.
What if the largest element isn't the most important? #
In some cases the most important element (or elements) on the page is not the same as the largest element, and developers may be more interested in measuring the render times of these other elements instead. This is possible using the Element Timing API, as described in the article on custom metrics.
How to improve LCP #
A full guide on optimizing LCP is available to guide you through the process of identifying LCP timings in the field and using lab data to drill down and optimize them.
Additional resources #
CHANGELOG #
Occasionally, bugs are discovered in the APIs used to measure metrics, and sometimes in the definitions of the metrics themselves. As a result, changes must sometimes be made, and these changes can show up as improvements or regressions in your internal reports and dashboards.
To help you manage this, all changes to either the implementation or definition of these metrics will be surfaced in this CHANGELOG.
If you have feedback for these metrics, you can provide it in the web-vitals-feedback Google group.