Serialization & Deserialization
Internally, Lexical maintains the state of a given editor in memory, updating it in response to user inputs. Sometimes, it's useful to convert this state into a serialized format in order to transfer it between editors or store it for retrieval at some later time. In order to make this process easier, Lexical provides some APIs that allow Nodes to specify how they should be represented in common serialized formats.
HTML
Currently, HTML serialization is primarily used to transfer data between Lexical and non-Lexical editors (such as Google Docs or Quip) via the copy & paste functionality in @lexical/clipboard
, but we also offer generic utilities for converting Lexical
-> HTML
and HTML
-> Lexical
in our @lexical/html
package.
Lexical -> HTML
When generating HTML from an editor you can pass in a selection object to narrow it down to a certain section or pass in null to convert the whole editor.
import {$generateHtmlFromNodes} from '@lexical/html';
const htmlString = $generateHtmlFromNodes(editor, selection | null);
LexicalNode.exportDOM()
You can control how a LexicalNode
is represented as HTML by adding an exportDOM()
method.
exportDOM(editor: LexicalEditor): DOMExportOutput
When transforming an editor state into HTML, we simply traverse the current editor state (or the selected subset thereof) and call the exportDOM
method for each Node in order to convert it to an HTMLElement
.
Sometimes, it's necessary or useful to do some post-processing after a node has been converted to HTML. For this, we expose the "after" API on DOMExportOutput
, which allows exportDOM
to specify a function that should be run after the conversion to an HTMLElement
has happened.
export type DOMExportOutput = {
after?: (generatedElement: ?HTMLElement) => ?HTMLElement,
element?: HTMLElement | null,
};
If the element property is null in the return value of exportDOM, that Node will not be represented in the serialized output.
HTML -> Lexical
import {$generateNodesFromDOM} from '@lexical/html';
editor.update(() => {
// In the browser you can use the native DOMParser API to parse the HTML string.
const parser = new DOMParser();
const dom = parser.parseFromString(htmlString, textHtmlMimeType);
// Once you have the DOM instance it's easy to generate LexicalNodes.
const nodes = $generateNodesFromDOM(editor, dom);
// Select the root
$getRoot().select();
// Insert them at a selection.
$insertNodes(nodes);
});
If you are running in headless mode, you can do it this way using JSDOM:
import {createHeadlessEditor} from '@lexical/headless';
import {$generateNodesFromDOM} from '@lexical/html';
// Once you've generated LexicalNodes from your HTML you can now initialize an editor instance with the parsed nodes.
const editorNodes = [] // Any custom nodes you register on the editor
const editor = createHeadlessEditor({ ...config, nodes: editorNodes });
editor.update(() => {
// In a headless environment you can use a package such as JSDom to parse the HTML string.
const dom = new JSDOM(htmlString);
// Once you have the DOM instance it's easy to generate LexicalNodes.
const nodes = $generateNodesFromDOM(editor, dom.window.document);
// Select the root
$getRoot().select();
// Insert them at a selection.
const selection = $getSelection();
selection.insertNodes(nodes);
});
Remember that state updates are asynchronous, so executing editor.getEditorState()
immediately afterwards might not return the expected content. To avoid it, pass discrete: true
in the editor.update
method.
LexicalNode.importDOM()
You can control how an HTMLElement
is represented in Lexical
by adding an importDOM()
method to your LexicalNode
.
static importDOM(): DOMConversionMap | null;
The return value of importDOM
is a map of the lower case (DOM) Node.nodeName property to an object that specifies a conversion function and a priority for that conversion. This allows LexicalNodes
to specify which type of DOM nodes they can convert and what the relative priority of their conversion should be. This is useful in cases where a DOM Node with specific attributes should be interpreted as one type of LexicalNode
, and otherwise it should be represented as another type of LexicalNode
.
type DOMConversionMap = Record<
string,
(node: HTMLElement) => DOMConversion | null
>;
type DOMConversion = {
conversion: DOMConversionFn;
priority: 0 | 1 | 2 | 3 | 4;
};
type DOMConversionFn = (element: HTMLElement) => DOMConversionOutput | null;
type DOMConversionOutput = {
after?: (childLexicalNodes: Array<LexicalNode>) => Array<LexicalNode>;
forChild?: DOMChildConversion;
node: null | LexicalNode | Array<LexicalNode>;
};
type DOMChildConversion = (
lexicalNode: LexicalNode,
parentLexicalNode: LexicalNode | null | undefined,
) => LexicalNode | null | undefined;
@lexical/code provides a good example of the usefulness of this design. GitHub uses HTML <table>
elements to represent the structure of copied code in HTML. If we interpreted all HTML <table>
elements as literal tables, then code pasted from GitHub would appear in Lexical as a Lexical TableNode. Instead, CodeNode specifies that it can handle <table>
elements too:
class CodeNode extends ElementNode {
...
static importDOM(): DOMConversionMap | null {
return {
...
table: (node: Node) => {
if (isGitHubCodeTable(node as HTMLTableElement)) {
return {
conversion: convertTableElement,
priority: 3,
};
}
return null;
},
...
};
}
...
}
If the imported <table>
doesn't align with the expected GitHub code HTML, then we return null and allow the node to be handled by lower priority conversions.
Much like exportDOM
, importDOM
exposes APIs to allow for post-processing of converted Nodes. The conversion function returns a DOMConversionOutput
which can specify a function to run for each converted child (forChild) or on all the child nodes after the conversion is complete (after). The key difference here is that forChild
runs for every deeply nested child node of the current node, whereas after
will run only once after the transformation of the node and all its children is complete.
JSON
Lexical -> JSON
To generate a JSON snapshot from an EditorState
, you can call the toJSON()
method on the EditorState
object.
const editorState = editor.getEditorState();
const json = editorState.toJSON();
Alternatively, if you are trying to generate a stringified version of the EditorState
, you can simply using JSON.stringify
directly:
const editorState = editor.getEditorState();
const jsonString = JSON.stringify(editorState);
LexicalNode.exportJSON()
You can control how a LexicalNode
is represented as JSON by adding an exportJSON()
method. It's important to ensure your serialized JSON node has a type
field and a children
field if it's an ElementNode
.
export type SerializedLexicalNode = {
type: string;
version: number;
};
exportJSON(): SerializedLexicalNode
When transforming an editor state into JSON, we simply traverse the current editor state and call the exportJSON
method for each Node in order to convert it to a SerializedLexicalNode
object that represents the JSON object for the given node. The built-in nodes from Lexical already have a JSON representation defined, but you'll need to define ones for your own custom nodes.
Here's an example of exportJSON
for the HeadingNode
:
export type SerializedHeadingNode = Spread<
{
tag: 'h1' | 'h2' | 'h3' | 'h4' | 'h5' | 'h6';
},
SerializedElementNode
>;
exportJSON(): SerializedHeadingNode {
return {
...super.exportJSON(),
tag: this.getTag(),
type: 'heading',
version: 1,
};
}
LexicalNode.importJSON()
You can control how a LexicalNode
is serialized back into a node from JSON by adding an importJSON()
method.
export type SerializedLexicalNode = {
type: string;
version: number;
};
importJSON(jsonNode: SerializedLexicalNode): LexicalNode
This method works in the opposite way to how exportJSON
works. Lexical uses the type
field on the JSON object to determine what Lexical node class it needs to map to, so keeping the type
field consistent with the getType()
of the LexicalNode is essential.
Here's an example of importJSON
for the HeadingNode
:
static importJSON(serializedNode: SerializedHeadingNode): HeadingNode {
const node = $createHeadingNode(serializedNode.tag);
node.setFormat(serializedNode.format);
node.setIndent(serializedNode.indent);
node.setDirection(serializedNode.direction);
return node;
}
Versioning & Breaking Changes
It's important to note that you should avoid making breaking changes to existing fields in your JSON object, especially if backwards compatibility is an important part of your editor. That's why we recommend using a version field to separate the different changes in your node as you add or change functionality of custom nodes. Here's the serialized type definition for Lexical's base TextNode
class:
import type {Spread} from 'lexical';
// Spread is a Typescript utility that allows us to spread the properties
// over the base SerializedLexicalNode type.
export type SerializedTextNode = Spread<
{
detail: number;
format: number;
mode: TextModeType;
style: string;
text: string;
},
SerializedLexicalNode
>;
If we wanted to make changes to the above TextNode
, we should be sure to not remove or change an existing property, as this can cause data corruption. Instead, opt to add the functionality as a new property field instead, and use the version to determine how to handle the differences in your node.
export type SerializedTextNodeV1 = Spread<
{
detail: number;
format: number;
mode: TextModeType;
style: string;
text: string;
},
SerializedLexicalNode
>;
export type SerializedTextNodeV2 = Spread<
{
detail: number;
format: number;
mode: TextModeType;
style: string;
text: string;
// Our new field we've added
newField: string,
// Notice the version is now 2
version: 2,
},
SerializedLexicalNode
>;
export type SerializedTextNode = SerializedTextNodeV1 | SerializedTextNodeV2;
Handling extended HTML styling
Since the TextNode is foundational to all Lexical packages, including the plain text use case. Handling any rich text logic is undesirable. This creates the need to override the TextNode to handle serialization and deserialization of HTML/CSS styling properties to achieve full fidelity between JSON <-> HTML. Since this is a very popular use case, below we are proving a recipe to handle the most common use cases.
You need to override the base TextNode:
const initialConfig: InitialConfigType = {
namespace: 'editor',
theme: editorThemeClasses,
onError: (error: any) => console.log(error),
nodes: [
ExtendedTextNode,
{ replace: TextNode, with: (node: TextNode) => new ExtendedTextNode(node.__text) },
ListNode,
ListItemNode,
]
};
and create a new Extended Text Node plugin
import {
$isTextNode,
DOMConversion,
DOMConversionMap,
DOMConversionOutput,
NodeKey,
TextNode,
SerializedTextNode,
LexicalNode
} from 'lexical';
export class ExtendedTextNode extends TextNode {
constructor(text: string, key?: NodeKey) {
super(text, key);
}
static getType(): string {
return 'extended-text';
}
static clone(node: ExtendedTextNode): ExtendedTextNode {
return new ExtendedTextNode(node.__text, node.__key);
}
static importDOM(): DOMConversionMap | null {
const importers = TextNode.importDOM();
return {
...importers,
code: () => ({
conversion: patchStyleConversion(importers?.code),
priority: 1
}),
em: () => ({
conversion: patchStyleConversion(importers?.em),
priority: 1
}),
span: () => ({
conversion: patchStyleConversion(importers?.span),
priority: 1
}),
strong: () => ({
conversion: patchStyleConversion(importers?.strong),
priority: 1
}),
sub: () => ({
conversion: patchStyleConversion(importers?.sub),
priority: 1
}),
sup: () => ({
conversion: patchStyleConversion(importers?.sup),
priority: 1
}),
};
}
static importJSON(serializedNode: SerializedTextNode): TextNode {
return TextNode.importJSON(serializedNode);
}
isSimpleText() {
return (
(this.__type === 'text' || this.__type === 'extended-text') &&
this.__mode === 0
);
}
exportJSON(): SerializedTextNode {
return {
...super.exportJSON(),
type: 'extended-text',
version: 1,
}
}
}
export function $createExtendedTextNode(text: string): ExtendedTextNode {
return new ExtendedTextNode(text, className);
}
export function $isExtendedTextNode(node: LexicalNode | null | undefined): node is ExtendedTextNode {
return node instanceof ExtendedTextNode;
}
function patchStyleConversion(
originalDOMConverter?: (node: HTMLElement) => DOMConversion | null
): (node: HTMLElement) => DOMConversionOutput | null {
return (node) => {
const original = originalDOMConverter?.(node);
if (!original) {
return null;
}
const originalOutput = original.conversion(node);
if (!originalOutput) {
return originalOutput;
}
const backgroundColor = node.style.backgroundColor;
const color = node.style.color;
const fontFamily = node.style.fontFamily;
const fontWeight = node.style.fontWeight;
const fontSize = node.style.fontSize;
const textDecoration = node.style.textDecoration;
return {
...originalOutput,
forChild: (lexicalNode, parent) => {
const originalForChild = originalOutput?.forChild ?? ((x) => x);
const result = originalForChild(lexicalNode, parent);
if ($isTextNode(result)) {
const style = [
backgroundColor ? `background-color: ${backgroundColor}` : null,
color ? `color: ${color}` : null,
fontFamily ? `font-family: ${fontFamily}` : null,
fontWeight ? `font-weight: ${fontWeight}` : null,
fontSize ? `font-size: ${fontSize}` : null,
textDecoration ? `text-decoration: ${textDecoration}` : null,
]
.filter((value) => value != null)
.join('; ');
if (style.length) {
return result.setStyle(style);
}
}
return result;
}
};
};
}