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Nodes

Base Nodes

Nodes are a core concept in Lexical. Not only do they form the visual editor view, as part of the EditorState, but they also represent the underlying data model for what is stored in the editor at any given time. Lexical has a single core based node, called LexicalNode that is extended internally to create Lexical's five base nodes:

  • RootNode
  • LineBreakNode
  • ElementNode
  • TextNode
  • DecoratorNode

Of these nodes, three of them are exposed from the lexical package, making them ideal to be extended:

  • ElementNode
  • TextNode
  • DecoratorNode

RootNode

There is only ever a single RootNode in an EditorState and it is always at the top and it represents the contenteditable itself. This means that the RootNode does not have a parent or siblings and also.

  • To get the text content of the entire editor, you should use rootNode.getTextContent().
  • To avoid selection issues, Lexical forbids insertion of text nodes directly into a RootNode.

LineBreakNode

You should never have '\n' in your text nodes, instead you should use the LineBreakNode which represents '\n', and more importantly, can work consistently between browsers and operating systems.

ElementNode

Used as parent for other nodes, can be block level (ParagraphNode, HeadingNode) and inline (LinkNode). Has various methods which define its behaviour that can be overridden during extension (isInline, canBeEmpty, canInsertTextBefore and more)

TextNode

Leaf type of node that contains text. It also includes few text-specific properties:

  • format any combination of bold, italic, underline, strikethrough, code, subscript and superscript
  • mode
    • token - acts as immutable node, can't change its content and is deleted all at once
    • inert - similar to token, but also set contenteditable=false so can't put cursor inside or partially select it
    • segmented - its content deleted by segments (one word at a time), it is editable although node becomes non-segmented once its content is updated
  • style can be used to apply inline css styles to text

DecoratorNode

Wrapper node to insert arbitrary view (component) inside the editor. Decorator node rendering is framework-agnostic and with can output components from React, vanilla js or other frameworks.

Node Properties

Lexical nodes can have properties. It's important that these properties are JSON serializable too, so you should never be assigning a property to a node that is a function, Symbol, Map, Set, or any other object that has a different prototype than the built-ins. null, undefined, number, string, boolean, {} and [] are all types of property that be assigned to node.

By convention, we prefix properties with __ (double underscore) so that it makes it clear that these properties are private and their access should be avoided directly. We opted for __ instead of _ because of the fact that some build tooling mangles and minifies single _ prefixed properties to improve code size. However, this breaks down if you're exposing a node to be extended outside of your build.

If you are adding a property that you expect to be modifiable or accessible, then you should always create a set of get*() and set*() methods on your node for this property. Inside these methods, you'll need to invoke some very important methods that ensure consistency with Lexical's internal immutable system. These methods are getWritable() and getLatest().

import type {NodeKey} from 'lexical';

class MyCustomNode extends SomeOtherNode {
__foo: string;

constructor(foo: string, key?: NodeKey) {
super(key);
this.__foo = foo;
}

setFoo(foo: string) {
// getWritable() creates a clone of the node
// if needed, to ensure we don't try and mutate
// a stale version of this node.
const self = this.getWritable();
self.__foo = foo;
}

getFoo(): string {
// getLatest() ensures we are getting the most
// up-to-date value from the EditorState.
const self = this.getLatest();
return self.__foo;
}
}

Lastly, all nodes should have both a static getType() method and a static clone() method. Lexical uses the type to be able to reconstruct a node back with its associated class prototype during deserialization (important for copy + paste!). Lexical uses cloning to ensure consistency between creation of new EditorState snapshots.

Expanding on the example above with these methods:

class MyCustomNode extends SomeOtherNode {
__foo: string;

static getType(): string {
return 'custom-node';
}

static clone(node: MyCustomNode): MyCustomNode {
return new MyCustomNode(node.__foo, node.__key);
}

constructor(foo: string, key?: NodeKey) {
super(key);
this.__foo = foo;
}

setFoo(foo: string) {
// getWritable() creates a clone of the node
// if needed, to ensure we don't try and mutate
// a stale version of this node.
const self = this.getWritable();
self.__foo = foo;
}

getFoo(): string {
// getLatest() ensures we are getting the most
// up-to-date value from the EditorState.
const self = this.getLatest();
return self.__foo;
}
}

Creating custom nodes

As mentioned above, Lexical exposes three base nodes that can be extended.

Did you know? Nodes such as ElementNode are already extended in the core by Lexical, such as ParagraphNode and RootNode!

Extending ElementNode

Below is an example of how you might extend ElementNode:

import {ElementNode} from 'lexical';

export class CustomParagraph extends ElementNode {
static getType(): string {
return 'custom-paragraph';
}

static clone(node: ParagraphNode): ParagraphNode {
return new CustomParagraph(node.__key);
}

createDOM(): HTMLElement {
// Define the DOM element here
const dom = document.createElement('p');
return dom;
}

updateDOM(prevNode: CustomParagraph, dom: HTMLElement): boolean {
// Returning false tells Lexical that this node does not need its
// DOM element replacing with a new copy from createDOM.
return false;
}
}

It's also good etiquette to provide some $ prefixed utility functions for your custom ElementNode so that others can easily consume and validate nodes are that of your custom node. Here's how you might do this for the above example:

export function $createCustomParagraphNode(): ParagraphNode {
return new CustomParagraph();
}

export function $isCustomParagraphNode(node: ?LexicalNode): boolean {
return node instanceof CustomParagraph;
}

Extending TextNode

export class ColoredNode extends TextNode {
__color: string;

constructor(text: string, color: string, key?: NodeKey): void {
super(text, key);
this.__color = color;
}

static getType(): string {
return 'colored';
}

static clone(node: ColoredNode): ColoredNode {
return new ColoredNode(node.__text, node.__color, node.__key);
}

createDOM(config: EditorConfig): HTMLElement {
const element = super.createDOM(config);
element.style.color = this.__color;
return element;
}

updateDOM(
prevNode: ColoredNode,
dom: HTMLElement,
config: EditorConfig,
): boolean {
const isUpdated = super.updateDOM(prevNode, dom, config);
if (prevNode.__color !== this.__color) {
dom.style.color = this.__color;
}
return isUpdated;
}
}

export function $createColoredNode(text: string, color: string): ColoredNode {
return new ColoredNode(text, color);
}

export function $isColoredNode(node: ?LexicalNode): boolean {
return node instanceof ColoredNode;
}

Extending DecoratorNode

export class VideoNode extends DecoratorNode<ReactNode> {
__id: string;

static getType(): string {
return 'video';
}

static clone(node: VideoNode): VideoNode {
return new VideoNode(node.__id, node.__key);
}

constructor(id: string, key?: NodeKey) {
super(key);
this.__id = id;
}

createDOM(): HTMLElement {
return document.createElement('div');
}

updateDOM(): false {
return false;
}

decorate(): ReactNode {
return <VideoPlayer videoID={this.__id} />;
}
}

export function $createVideoNode(id: string): VideoNode {
return new VideoNode(id);
}

export function $isVideoNode(node: ?LexicalNode): boolean {
return node instanceof VideoNode;
}