Does implementing Shadow DOM in my projects will make them faster like virtual DOM that's used by React?
Virtual DOM is about avoiding unnecessary changes to the DOM, which are expensive performance-wise, because changes to the DOM usually cause re-rendering of the page. Virtual DOM also allows to collect several changes to be applied at once, so not every single change causes a re-render, but instead re-rendering only happens once after a set of changes was applied to the DOM.
Shadow dom is mostly about encapsulation of the implementation. A single custom element can implement more-or-less complex logic combined with more-or-less complex DOM. An entire web application of arbitrary complexity can be added to a page by an import and
<body><my-app></my-app> but also simpler reusable and composable components can be implemented as custom elements where the internal representation is hidden in the shadow DOM like
Style encapsulation Shadow DOM is also about preventing styles being applied accidentally to elements the designer didn't intend to, for example because the CSS or components library you are using changed a selector that now applies to other elements that use the same CSS class names. Styles added to components are scoped to that component and bleeding out or in of styles is prevented.
Shadow DOM and performance
Even though shadow DOM is not about performance in the first place it also has performance implications. Because styles are scoped, the browser can make assumptions about some changes to affect only a limited area of the page (the shadow DOM of a custom element) which can limit re-rendering to the area of such a component, instead of re-rendering the entire page.
This is the reason the
::shadow CSS combinators, which allowed to apply styles across shadow DOM boundaries, were deprecated and are subject to be removed soon from Chrome (other browsers never had them AFAIK). The mere existence of these combinators prevents the kind of optimization mentioned in the previous paragraph.
Angular2 uses the advantages of both worlds.
It uses unidirectional data flow and runs change detection on the model only. If it detects changes it causes the DOM to be updated by updating bindings and make structural directives like
*ngIf, ... update the DOM. Therefore the DOM is only updated when the model actually changed.
Angular2 uses shadow DOM (only with
ViewEncapsulation.Native which is currently not the default) to utilize style encapsulation capabilities provided by the browser, or (current default) just emulate style encapsulation by rewriting styles added to components, as a workaround until native shadow DOM and CSS variables (for dynamic global style changes) become widely available.
No, Shadow DOM and Virtual DOM are unrelated, although somewhat similarly named:
Virtual DOM: React concept of keeping two copies of the DOM (the original, and the updated) for differential reasons. Before rendering, React diffs the two objects to determine if it should apply an update(s) to the actual DOM tree. This results in boosted performance, as we're only updating the portions of the view that require it, not the entire screen.
Shadow DOM: Part of the Web Components spec as proposed by W3C, which basically allows the encapsulation of smaller DOM elements and CSS styles into a single DOM element:
Example Shadow DOM Element
<video width="300" height="150" />
<video> actually encapsulates the following elements:
<div> <input type="button" style="color: blue;">Play <input type="button" style="color: red;">Pause <source src="myVideo.mp4"> </div>
So by using Shadow DOM, we're able to hide the implementation details of our web element, and only pass along necessary information to the sub-elements (i.e.
width), which, perhaps confusingly, strongly resembles the ReactJS idiom of passing
props to components.
Information provided via:
From this test, Polymer blew React away in performance in Chrome: